/* Copyright (c) 2018 Intel Corporation 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.hpp" #include "dbus_singleton.hpp" #include "dbus_utility.hpp" #include "error_messages.hpp" #include "generated/enums/processor.hpp" #include "generated/enums/resource.hpp" #include "query.hpp" #include "registries/privilege_registry.hpp" #include "utils/collection.hpp" #include "utils/dbus_utils.hpp" #include "utils/json_utils.hpp" #include #include #include #include #include #include #include #include #include #include #include #include namespace redfish { // Interfaces which imply a D-Bus object represents a Processor constexpr std::array processorInterfaces = { "xyz.openbmc_project.Inventory.Item.Cpu", "xyz.openbmc_project.Inventory.Item.Accelerator"}; /** * @brief Fill out uuid info of a processor by * requesting data from the given D-Bus object. * * @param[in,out] asyncResp Async HTTP response. * @param[in] service D-Bus service to query. * @param[in] objPath D-Bus object to query. */ inline void getProcessorUUID(std::shared_ptr asyncResp, const std::string& service, const std::string& objPath) { BMCWEB_LOG_DEBUG("Get Processor UUID"); dbus::utility::getProperty( service, objPath, "xyz.openbmc_project.Common.UUID", "UUID", [objPath, asyncResp{std::move(asyncResp)}]( const boost::system::error_code& ec, const std::string& property) { if (ec) { BMCWEB_LOG_DEBUG("DBUS response error"); messages::internalError(asyncResp->res); return; } asyncResp->res.jsonValue["UUID"] = property; }); } inline void getCpuDataByInterface( const std::shared_ptr& asyncResp, const dbus::utility::DBusInterfacesMap& cpuInterfacesProperties) { BMCWEB_LOG_DEBUG("Get CPU resources by interface."); // Set the default value of state asyncResp->res.jsonValue["Status"]["State"] = resource::State::Enabled; asyncResp->res.jsonValue["Status"]["Health"] = resource::Health::OK; for (const auto& interface : cpuInterfacesProperties) { for (const auto& property : interface.second) { if (property.first == "Present") { const bool* cpuPresent = std::get_if(&property.second); if (cpuPresent == nullptr) { // Important property not in desired type messages::internalError(asyncResp->res); return; } if (!*cpuPresent) { // Slot is not populated asyncResp->res.jsonValue["Status"]["State"] = resource::State::Absent; } } else if (property.first == "Functional") { const bool* cpuFunctional = std::get_if(&property.second); if (cpuFunctional == nullptr) { messages::internalError(asyncResp->res); return; } if (!*cpuFunctional) { asyncResp->res.jsonValue["Status"]["Health"] = resource::Health::Critical; } } else if (property.first == "CoreCount") { const uint16_t* coresCount = std::get_if(&property.second); if (coresCount == nullptr) { messages::internalError(asyncResp->res); return; } asyncResp->res.jsonValue["TotalCores"] = *coresCount; } else if (property.first == "MaxSpeedInMhz") { const uint32_t* value = std::get_if(&property.second); if (value != nullptr) { asyncResp->res.jsonValue["MaxSpeedMHz"] = *value; } } else if (property.first == "Socket") { const std::string* value = std::get_if(&property.second); if (value != nullptr) { asyncResp->res.jsonValue["Socket"] = *value; } } else if (property.first == "ThreadCount") { const uint16_t* value = std::get_if(&property.second); if (value != nullptr) { asyncResp->res.jsonValue["TotalThreads"] = *value; } } else if (property.first == "EffectiveFamily") { const uint16_t* value = std::get_if(&property.second); if (value != nullptr && *value != 2) { asyncResp->res.jsonValue["ProcessorId"]["EffectiveFamily"] = "0x" + intToHexString(*value, 4); } } else if (property.first == "EffectiveModel") { const uint16_t* value = std::get_if(&property.second); if (value == nullptr) { messages::internalError(asyncResp->res); return; } if (*value != 0) { asyncResp->res.jsonValue["ProcessorId"]["EffectiveModel"] = "0x" + intToHexString(*value, 4); } } else if (property.first == "Id") { const uint64_t* value = std::get_if(&property.second); if (value != nullptr && *value != 0) { asyncResp->res .jsonValue["ProcessorId"]["IdentificationRegisters"] = "0x" + intToHexString(*value, 16); } } else if (property.first == "Microcode") { const uint32_t* value = std::get_if(&property.second); if (value == nullptr) { messages::internalError(asyncResp->res); return; } if (*value != 0) { asyncResp->res.jsonValue["ProcessorId"]["MicrocodeInfo"] = "0x" + intToHexString(*value, 8); } } else if (property.first == "Step") { const uint16_t* value = std::get_if(&property.second); if (value == nullptr) { messages::internalError(asyncResp->res); return; } if (*value != std::numeric_limits::max()) { asyncResp->res.jsonValue["ProcessorId"]["Step"] = "0x" + intToHexString(*value, 4); } } } } } inline void getCpuDataByService( std::shared_ptr asyncResp, const std::string& cpuId, const std::string& service, const std::string& objPath) { BMCWEB_LOG_DEBUG("Get available system cpu resources by service."); sdbusplus::message::object_path path("/xyz/openbmc_project/inventory"); dbus::utility::getManagedObjects( service, path, [cpuId, service, objPath, asyncResp{std::move(asyncResp)}]( const boost::system::error_code& ec, const dbus::utility::ManagedObjectType& dbusData) { if (ec) { BMCWEB_LOG_DEBUG("DBUS response error"); messages::internalError(asyncResp->res); return; } asyncResp->res.jsonValue["Id"] = cpuId; asyncResp->res.jsonValue["Name"] = "Processor"; asyncResp->res.jsonValue["ProcessorType"] = processor::ProcessorType::CPU; for (const auto& object : dbusData) { if (object.first.str == objPath) { getCpuDataByInterface(asyncResp, object.second); } } return; }); } /** * @brief Translates throttle cause DBUS property to redfish. * * @param[in] dbusSource The throttle cause from DBUS * * @return Returns as a string, the throttle cause in Redfish terms. If * translation cannot be done, returns "Unknown" throttle reason. */ inline processor::ThrottleCause dbusToRfThrottleCause(const std::string& dbusSource) { if (dbusSource == "xyz.openbmc_project.Control.Power.Throttle.ThrottleReasons.ClockLimit") { return processor::ThrottleCause::ClockLimit; } if (dbusSource == "xyz.openbmc_project.Control.Power.Throttle.ThrottleReasons.ManagementDetectedFault") { return processor::ThrottleCause::ManagementDetectedFault; } if (dbusSource == "xyz.openbmc_project.Control.Power.Throttle.ThrottleReasons.PowerLimit") { return processor::ThrottleCause::PowerLimit; } if (dbusSource == "xyz.openbmc_project.Control.Power.Throttle.ThrottleReasons.ThermalLimit") { return processor::ThrottleCause::ThermalLimit; } if (dbusSource == "xyz.openbmc_project.Control.Power.Throttle.ThrottleReasons.Unknown") { return processor::ThrottleCause::Unknown; } return processor::ThrottleCause::Invalid; } inline void readThrottleProperties(const std::shared_ptr& asyncResp, const boost::system::error_code& ec, const dbus::utility::DBusPropertiesMap& properties) { if (ec) { BMCWEB_LOG_ERROR("Processor Throttle getAllProperties error {}", ec); messages::internalError(asyncResp->res); return; } const bool* status = nullptr; const std::vector* causes = nullptr; if (!sdbusplus::unpackPropertiesNoThrow(dbus_utils::UnpackErrorPrinter(), properties, "Throttled", status, "ThrottleCauses", causes)) { messages::internalError(asyncResp->res); return; } asyncResp->res.jsonValue["Throttled"] = *status; nlohmann::json::array_t rCauses; for (const std::string& cause : *causes) { processor::ThrottleCause rfCause = dbusToRfThrottleCause(cause); if (rfCause == processor::ThrottleCause::Invalid) { messages::internalError(asyncResp->res); return; } rCauses.emplace_back(rfCause); } asyncResp->res.jsonValue["ThrottleCauses"] = std::move(rCauses); } inline void getThrottleProperties( const std::shared_ptr& asyncResp, const std::string& service, const std::string& objectPath) { BMCWEB_LOG_DEBUG("Get processor throttle resources"); dbus::utility::getAllProperties( service, objectPath, "xyz.openbmc_project.Control.Power.Throttle", [asyncResp](const boost::system::error_code& ec, const dbus::utility::DBusPropertiesMap& properties) { readThrottleProperties(asyncResp, ec, properties); }); } inline void getCpuAssetData(std::shared_ptr asyncResp, const std::string& service, const std::string& objPath) { BMCWEB_LOG_DEBUG("Get Cpu Asset Data"); dbus::utility::getAllProperties( service, objPath, "xyz.openbmc_project.Inventory.Decorator.Asset", [objPath, asyncResp{std::move(asyncResp)}]( const boost::system::error_code& ec, const dbus::utility::DBusPropertiesMap& properties) { if (ec) { BMCWEB_LOG_DEBUG("DBUS response error"); messages::internalError(asyncResp->res); return; } const std::string* serialNumber = nullptr; const std::string* model = nullptr; const std::string* manufacturer = nullptr; const std::string* partNumber = nullptr; const std::string* sparePartNumber = nullptr; const bool success = sdbusplus::unpackPropertiesNoThrow( dbus_utils::UnpackErrorPrinter(), properties, "SerialNumber", serialNumber, "Model", model, "Manufacturer", manufacturer, "PartNumber", partNumber, "SparePartNumber", sparePartNumber); if (!success) { messages::internalError(asyncResp->res); return; } if (serialNumber != nullptr && !serialNumber->empty()) { asyncResp->res.jsonValue["SerialNumber"] = *serialNumber; } if ((model != nullptr) && !model->empty()) { asyncResp->res.jsonValue["Model"] = *model; } if (manufacturer != nullptr) { asyncResp->res.jsonValue["Manufacturer"] = *manufacturer; // Otherwise would be unexpected. if (manufacturer->find("Intel") != std::string::npos) { asyncResp->res.jsonValue["ProcessorArchitecture"] = "x86"; asyncResp->res.jsonValue["InstructionSet"] = "x86-64"; } else if (manufacturer->find("IBM") != std::string::npos) { asyncResp->res.jsonValue["ProcessorArchitecture"] = "Power"; asyncResp->res.jsonValue["InstructionSet"] = "PowerISA"; } } if (partNumber != nullptr) { asyncResp->res.jsonValue["PartNumber"] = *partNumber; } if (sparePartNumber != nullptr && !sparePartNumber->empty()) { asyncResp->res.jsonValue["SparePartNumber"] = *sparePartNumber; } }); } inline void getCpuRevisionData(std::shared_ptr asyncResp, const std::string& service, const std::string& objPath) { BMCWEB_LOG_DEBUG("Get Cpu Revision Data"); dbus::utility::getAllProperties( service, objPath, "xyz.openbmc_project.Inventory.Decorator.Revision", [objPath, asyncResp{std::move(asyncResp)}]( const boost::system::error_code& ec, const dbus::utility::DBusPropertiesMap& properties) { if (ec) { BMCWEB_LOG_DEBUG("DBUS response error"); messages::internalError(asyncResp->res); return; } const std::string* version = nullptr; const bool success = sdbusplus::unpackPropertiesNoThrow( dbus_utils::UnpackErrorPrinter(), properties, "Version", version); if (!success) { messages::internalError(asyncResp->res); return; } if (version != nullptr) { asyncResp->res.jsonValue["Version"] = *version; } }); } inline void getAcceleratorDataByService( std::shared_ptr asyncResp, const std::string& acclrtrId, const std::string& service, const std::string& objPath) { BMCWEB_LOG_DEBUG("Get available system Accelerator resources by service."); dbus::utility::getAllProperties( service, objPath, "", [acclrtrId, asyncResp{std::move(asyncResp)}]( const boost::system::error_code& ec, const dbus::utility::DBusPropertiesMap& properties) { if (ec) { BMCWEB_LOG_DEBUG("DBUS response error"); messages::internalError(asyncResp->res); return; } const bool* functional = nullptr; const bool* present = nullptr; const bool success = sdbusplus::unpackPropertiesNoThrow( dbus_utils::UnpackErrorPrinter(), properties, "Functional", functional, "Present", present); if (!success) { messages::internalError(asyncResp->res); return; } std::string state = "Enabled"; std::string health = "OK"; if (present != nullptr && !*present) { state = "Absent"; } if (functional != nullptr && !*functional) { if (state == "Enabled") { health = "Critical"; } } asyncResp->res.jsonValue["Id"] = acclrtrId; asyncResp->res.jsonValue["Name"] = "Processor"; asyncResp->res.jsonValue["Status"]["State"] = state; asyncResp->res.jsonValue["Status"]["Health"] = health; asyncResp->res.jsonValue["ProcessorType"] = processor::ProcessorType::Accelerator; }); } // OperatingConfig D-Bus Types using TurboProfileProperty = std::vector>; using BaseSpeedPrioritySettingsProperty = std::vector>>; // uint32_t and size_t may or may not be the same type, requiring a dedup'd // variant /** * Fill out the HighSpeedCoreIDs in a Processor resource from the given * OperatingConfig D-Bus property. * * @param[in,out] asyncResp Async HTTP response. * @param[in] baseSpeedSettings Full list of base speed priority groups, * to use to determine the list of high * speed cores. */ inline void highSpeedCoreIdsHandler( const std::shared_ptr& asyncResp, const BaseSpeedPrioritySettingsProperty& baseSpeedSettings) { // The D-Bus property does not indicate which bucket is the "high // priority" group, so let's discern that by looking for the one with // highest base frequency. auto highPriorityGroup = baseSpeedSettings.cend(); uint32_t highestBaseSpeed = 0; for (auto it = baseSpeedSettings.cbegin(); it != baseSpeedSettings.cend(); ++it) { const uint32_t baseFreq = std::get(*it); if (baseFreq > highestBaseSpeed) { highestBaseSpeed = baseFreq; highPriorityGroup = it; } } nlohmann::json& jsonCoreIds = asyncResp->res.jsonValue["HighSpeedCoreIDs"]; jsonCoreIds = nlohmann::json::array(); // There may not be any entries in the D-Bus property, so only populate // if there was actually something there. if (highPriorityGroup != baseSpeedSettings.cend()) { jsonCoreIds = std::get>(*highPriorityGroup); } } /** * Fill out OperatingConfig related items in a Processor resource by requesting * data from the given D-Bus object. * * @param[in,out] asyncResp Async HTTP response. * @param[in] cpuId CPU D-Bus name. * @param[in] service D-Bus service to query. * @param[in] objPath D-Bus object to query. */ inline void getCpuConfigData(const std::shared_ptr& asyncResp, const std::string& cpuId, const std::string& service, const std::string& objPath) { BMCWEB_LOG_INFO("Getting CPU operating configs for {}", cpuId); // First, GetAll CurrentOperatingConfig properties on the object dbus::utility::getAllProperties( service, objPath, "xyz.openbmc_project.Control.Processor.CurrentOperatingConfig", [asyncResp, cpuId, service](const boost::system::error_code& ec, const dbus::utility::DBusPropertiesMap& properties) { if (ec) { BMCWEB_LOG_WARNING("D-Bus error: {}, {}", ec, ec.message()); messages::internalError(asyncResp->res); return; } nlohmann::json& json = asyncResp->res.jsonValue; const sdbusplus::message::object_path* appliedConfig = nullptr; const bool* baseSpeedPriorityEnabled = nullptr; const bool success = sdbusplus::unpackPropertiesNoThrow( dbus_utils::UnpackErrorPrinter(), properties, "AppliedConfig", appliedConfig, "BaseSpeedPriorityEnabled", baseSpeedPriorityEnabled); if (!success) { messages::internalError(asyncResp->res); return; } if (appliedConfig != nullptr) { const std::string& dbusPath = appliedConfig->str; nlohmann::json::object_t operatingConfig; operatingConfig["@odata.id"] = boost::urls::format( "/redfish/v1/Systems/{}/Processors/{}/OperatingConfigs", BMCWEB_REDFISH_SYSTEM_URI_NAME, cpuId); json["OperatingConfigs"] = std::move(operatingConfig); // Reuse the D-Bus config object name for the Redfish // URI size_t baseNamePos = dbusPath.rfind('/'); if (baseNamePos == std::string::npos || baseNamePos == (dbusPath.size() - 1)) { // If the AppliedConfig was somehow not a valid path, // skip adding any more properties, since everything // else is tied to this applied config. messages::internalError(asyncResp->res); return; } nlohmann::json::object_t appliedOperatingConfig; appliedOperatingConfig["@odata.id"] = boost::urls::format( "/redfish/v1/Systems/{}/Processors/{}/OperatingConfigs/{}", BMCWEB_REDFISH_SYSTEM_URI_NAME, cpuId, dbusPath.substr(baseNamePos + 1)); json["AppliedOperatingConfig"] = std::move(appliedOperatingConfig); // Once we found the current applied config, queue another // request to read the base freq core ids out of that // config. dbus::utility::getProperty( service, dbusPath, "xyz.openbmc_project.Inventory.Item.Cpu." "OperatingConfig", "BaseSpeedPrioritySettings", [asyncResp](const boost::system::error_code& ec2, const BaseSpeedPrioritySettingsProperty& baseSpeedList) { if (ec2) { BMCWEB_LOG_WARNING("D-Bus Property Get error: {}", ec2); messages::internalError(asyncResp->res); return; } highSpeedCoreIdsHandler(asyncResp, baseSpeedList); }); } if (baseSpeedPriorityEnabled != nullptr) { json["BaseSpeedPriorityState"] = *baseSpeedPriorityEnabled ? "Enabled" : "Disabled"; } }); } /** * @brief Fill out location info of a processor by * requesting data from the given D-Bus object. * * @param[in,out] asyncResp Async HTTP response. * @param[in] service D-Bus service to query. * @param[in] objPath D-Bus object to query. */ inline void getCpuLocationCode(std::shared_ptr asyncResp, const std::string& service, const std::string& objPath) { BMCWEB_LOG_DEBUG("Get Cpu Location Data"); dbus::utility::getProperty( service, objPath, "xyz.openbmc_project.Inventory.Decorator.LocationCode", "LocationCode", [objPath, asyncResp{std::move(asyncResp)}]( const boost::system::error_code& ec, const std::string& property) { if (ec) { BMCWEB_LOG_DEBUG("DBUS response error"); messages::internalError(asyncResp->res); return; } asyncResp->res .jsonValue["Location"]["PartLocation"]["ServiceLabel"] = property; }); } /** * Populate the unique identifier in a Processor resource by requesting data * from the given D-Bus object. * * @param[in,out] asyncResp Async HTTP response. * @param[in] service D-Bus service to query. * @param[in] objPath D-Bus object to query. */ inline void getCpuUniqueId(const std::shared_ptr& asyncResp, const std::string& service, const std::string& objectPath) { BMCWEB_LOG_DEBUG("Get CPU UniqueIdentifier"); dbus::utility::getProperty( service, objectPath, "xyz.openbmc_project.Inventory.Decorator.UniqueIdentifier", "UniqueIdentifier", [asyncResp](const boost::system::error_code& ec, const std::string& id) { if (ec) { BMCWEB_LOG_ERROR("Failed to read cpu unique id: {}", ec); messages::internalError(asyncResp->res); return; } asyncResp->res .jsonValue["ProcessorId"]["ProtectedIdentificationNumber"] = id; }); } /** * Find the D-Bus object representing the requested Processor, and call the * handler with the results. If matching object is not found, add 404 error to * response and don't call the handler. * * @param[in,out] resp Async HTTP response. * @param[in] processorId Redfish Processor Id. * @param[in] handler Callback to continue processing request upon * successfully finding object. */ template inline void getProcessorObject(const std::shared_ptr& resp, const std::string& processorId, Handler&& handler) { BMCWEB_LOG_DEBUG("Get available system processor resources."); // GetSubTree on all interfaces which provide info about a Processor constexpr std::array interfaces = { "xyz.openbmc_project.Common.UUID", "xyz.openbmc_project.Inventory.Decorator.Asset", "xyz.openbmc_project.Inventory.Decorator.Revision", "xyz.openbmc_project.Inventory.Item.Cpu", "xyz.openbmc_project.Inventory.Decorator.LocationCode", "xyz.openbmc_project.Inventory.Item.Accelerator", "xyz.openbmc_project.Control.Processor.CurrentOperatingConfig", "xyz.openbmc_project.Inventory.Decorator.UniqueIdentifier", "xyz.openbmc_project.Control.Power.Throttle"}; dbus::utility::getSubTree( "/xyz/openbmc_project/inventory", 0, interfaces, [resp, processorId, handler = std::forward(handler)]( const boost::system::error_code& ec, const dbus::utility::MapperGetSubTreeResponse& subtree) { if (ec) { BMCWEB_LOG_DEBUG("DBUS response error: {}", ec); messages::internalError(resp->res); return; } for (const auto& [objectPath, serviceMap] : subtree) { // Ignore any objects which don't end with our desired cpu name if (!objectPath.ends_with(processorId)) { continue; } bool found = false; // Filter out objects that don't have the CPU-specific // interfaces to make sure we can return 404 on non-CPUs // (e.g. /redfish/../Processors/dimm0) for (const auto& [serviceName, interfaceList] : serviceMap) { if (std::ranges::find_first_of(interfaceList, processorInterfaces) != std::end(interfaceList)) { found = true; break; } } if (!found) { continue; } // Process the first object which does match our cpu name and // required interfaces, and potentially ignore any other // matching objects. Assume all interfaces we want to process // must be on the same object path. handler(objectPath, serviceMap); return; } messages::resourceNotFound(resp->res, "Processor", processorId); }); } inline void getProcessorData( const std::shared_ptr& asyncResp, const std::string& processorId, const std::string& objectPath, const dbus::utility::MapperServiceMap& serviceMap) { for (const auto& [serviceName, interfaceList] : serviceMap) { for (const auto& interface : interfaceList) { if (interface == "xyz.openbmc_project.Inventory.Decorator.Asset") { getCpuAssetData(asyncResp, serviceName, objectPath); } else if (interface == "xyz.openbmc_project.Inventory.Decorator.Revision") { getCpuRevisionData(asyncResp, serviceName, objectPath); } else if (interface == "xyz.openbmc_project.Inventory.Item.Cpu") { getCpuDataByService(asyncResp, processorId, serviceName, objectPath); } else if (interface == "xyz.openbmc_project.Inventory.Item.Accelerator") { getAcceleratorDataByService(asyncResp, processorId, serviceName, objectPath); } else if ( interface == "xyz.openbmc_project.Control.Processor.CurrentOperatingConfig") { getCpuConfigData(asyncResp, processorId, serviceName, objectPath); } else if (interface == "xyz.openbmc_project.Inventory.Decorator.LocationCode") { getCpuLocationCode(asyncResp, serviceName, objectPath); } else if (interface == "xyz.openbmc_project.Common.UUID") { getProcessorUUID(asyncResp, serviceName, objectPath); } else if (interface == "xyz.openbmc_project.Inventory.Decorator.UniqueIdentifier") { getCpuUniqueId(asyncResp, serviceName, objectPath); } else if (interface == "xyz.openbmc_project.Control.Power.Throttle") { getThrottleProperties(asyncResp, serviceName, objectPath); } } } } /** * Request all the properties for the given D-Bus object and fill out the * related entries in the Redfish OperatingConfig response. * * @param[in,out] asyncResp Async HTTP response. * @param[in] service D-Bus service name to query. * @param[in] objPath D-Bus object to query. */ inline void getOperatingConfigData( const std::shared_ptr& asyncResp, const std::string& service, const std::string& objPath) { dbus::utility::getAllProperties( service, objPath, "xyz.openbmc_project.Inventory.Item.Cpu.OperatingConfig", [asyncResp](const boost::system::error_code& ec, const dbus::utility::DBusPropertiesMap& properties) { if (ec) { BMCWEB_LOG_WARNING("D-Bus error: {}, {}", ec, ec.message()); messages::internalError(asyncResp->res); return; } const size_t* availableCoreCount = nullptr; const uint32_t* baseSpeed = nullptr; const uint32_t* maxJunctionTemperature = nullptr; const uint32_t* maxSpeed = nullptr; const uint32_t* powerLimit = nullptr; const TurboProfileProperty* turboProfile = nullptr; const BaseSpeedPrioritySettingsProperty* baseSpeedPrioritySettings = nullptr; const bool success = sdbusplus::unpackPropertiesNoThrow( dbus_utils::UnpackErrorPrinter(), properties, "AvailableCoreCount", availableCoreCount, "BaseSpeed", baseSpeed, "MaxJunctionTemperature", maxJunctionTemperature, "MaxSpeed", maxSpeed, "PowerLimit", powerLimit, "TurboProfile", turboProfile, "BaseSpeedPrioritySettings", baseSpeedPrioritySettings); if (!success) { messages::internalError(asyncResp->res); return; } nlohmann::json& json = asyncResp->res.jsonValue; if (availableCoreCount != nullptr) { json["TotalAvailableCoreCount"] = *availableCoreCount; } if (baseSpeed != nullptr) { json["BaseSpeedMHz"] = *baseSpeed; } if (maxJunctionTemperature != nullptr) { json["MaxJunctionTemperatureCelsius"] = *maxJunctionTemperature; } if (maxSpeed != nullptr) { json["MaxSpeedMHz"] = *maxSpeed; } if (powerLimit != nullptr) { json["TDPWatts"] = *powerLimit; } if (turboProfile != nullptr) { nlohmann::json& turboArray = json["TurboProfile"]; turboArray = nlohmann::json::array(); for (const auto& [turboSpeed, coreCount] : *turboProfile) { nlohmann::json::object_t turbo; turbo["ActiveCoreCount"] = coreCount; turbo["MaxSpeedMHz"] = turboSpeed; turboArray.emplace_back(std::move(turbo)); } } if (baseSpeedPrioritySettings != nullptr) { nlohmann::json& baseSpeedArray = json["BaseSpeedPrioritySettings"]; baseSpeedArray = nlohmann::json::array(); for (const auto& [baseSpeedMhz, coreList] : *baseSpeedPrioritySettings) { nlohmann::json::object_t speed; speed["CoreCount"] = coreList.size(); speed["CoreIDs"] = coreList; speed["BaseSpeedMHz"] = baseSpeedMhz; baseSpeedArray.emplace_back(std::move(speed)); } } }); } /** * Handle the PATCH operation of the AppliedOperatingConfig property. Do basic * validation of the input data, and then set the D-Bus property. * * @param[in,out] resp Async HTTP response. * @param[in] processorId Processor's Id. * @param[in] appliedConfigUri New property value to apply. * @param[in] cpuObjectPath Path of CPU object to modify. * @param[in] serviceMap Service map for CPU object. */ inline void patchAppliedOperatingConfig( const std::shared_ptr& resp, const std::string& processorId, const std::string& appliedConfigUri, const std::string& cpuObjectPath, const dbus::utility::MapperServiceMap& serviceMap) { // Check that the property even exists by checking for the interface const std::string* controlService = nullptr; for (const auto& [serviceName, interfaceList] : serviceMap) { if (std::ranges::find(interfaceList, "xyz.openbmc_project.Control.Processor." "CurrentOperatingConfig") != interfaceList.end()) { controlService = &serviceName; break; } } if (controlService == nullptr) { messages::internalError(resp->res); return; } // Check that the config URI is a child of the cpu URI being patched. std::string expectedPrefix(std::format("/redfish/v1/Systems/{}/Processors/", BMCWEB_REDFISH_SYSTEM_URI_NAME)); expectedPrefix += processorId; expectedPrefix += "/OperatingConfigs/"; if (!appliedConfigUri.starts_with(expectedPrefix) || expectedPrefix.size() == appliedConfigUri.size()) { messages::propertyValueIncorrect(resp->res, "AppliedOperatingConfig", appliedConfigUri); return; } // Generate the D-Bus path of the OperatingConfig object, by assuming it's a // direct child of the CPU object. // Strip the expectedPrefix from the config URI to get the "filename", and // append to the CPU's path. std::string configBaseName = appliedConfigUri.substr(expectedPrefix.size()); sdbusplus::message::object_path configPath(cpuObjectPath); configPath /= configBaseName; BMCWEB_LOG_INFO("Setting config to {}", configPath.str); // Set the property, with handler to check error responses setDbusProperty( resp, "AppliedOperatingConfig", *controlService, cpuObjectPath, "xyz.openbmc_project.Control.Processor.CurrentOperatingConfig", "AppliedConfig", configPath); } inline void handleProcessorHead( crow::App& app, const crow::Request& req, const std::shared_ptr& asyncResp, const std::string& /* systemName */, const std::string& /* processorId */) { if (!redfish::setUpRedfishRoute(app, req, asyncResp)) { return; } asyncResp->res.addHeader( boost::beast::http::field::link, "; rel=describedby"); } inline void handleProcessorCollectionHead( crow::App& app, const crow::Request& req, const std::shared_ptr& asyncResp, const std::string& /* systemName */) { if (!redfish::setUpRedfishRoute(app, req, asyncResp)) { return; } asyncResp->res.addHeader( boost::beast::http::field::link, "; rel=describedby"); } inline void requestRoutesOperatingConfigCollection(App& app) { BMCWEB_ROUTE(app, "/redfish/v1/Systems//Processors//OperatingConfigs/") .privileges(redfish::privileges::getOperatingConfigCollection) .methods( boost::beast::http::verb:: get)([&app](const crow::Request& req, const std::shared_ptr& asyncResp, const std::string& systemName, const std::string& cpuName) { if (!redfish::setUpRedfishRoute(app, req, asyncResp)) { return; } if constexpr (BMCWEB_EXPERIMENTAL_REDFISH_MULTI_COMPUTER_SYSTEM) { // Option currently returns no systems. TBD messages::resourceNotFound(asyncResp->res, "ComputerSystem", systemName); return; } if (systemName != BMCWEB_REDFISH_SYSTEM_URI_NAME) { messages::resourceNotFound(asyncResp->res, "ComputerSystem", systemName); return; } asyncResp->res.jsonValue["@odata.type"] = "#OperatingConfigCollection.OperatingConfigCollection"; asyncResp->res.jsonValue["@odata.id"] = boost::urls::format( "/redfish/v1/Systems/{}/Processors/{}/OperatingConfigs", BMCWEB_REDFISH_SYSTEM_URI_NAME, cpuName); asyncResp->res.jsonValue["Name"] = "Operating Config Collection"; // First find the matching CPU object so we know how to // constrain our search for related Config objects. const std::array interfaces = { "xyz.openbmc_project.Control.Processor.CurrentOperatingConfig"}; dbus::utility::getSubTreePaths( "/xyz/openbmc_project/inventory", 0, interfaces, [asyncResp, cpuName](const boost::system::error_code& ec, const dbus::utility::MapperGetSubTreePathsResponse& objects) { if (ec) { BMCWEB_LOG_WARNING("D-Bus error: {}, {}", ec, ec.message()); messages::internalError(asyncResp->res); return; } for (const std::string& object : objects) { if (!object.ends_with(cpuName)) { continue; } // Not expected that there will be multiple matching // CPU objects, but if there are just use the first // one. // Use the common search routine to construct the // Collection of all Config objects under this CPU. constexpr std::array interface{ "xyz.openbmc_project.Inventory.Item.Cpu.OperatingConfig"}; collection_util::getCollectionMembers( asyncResp, boost::urls::format( "/redfish/v1/Systems/{}/Processors/{}/OperatingConfigs", BMCWEB_REDFISH_SYSTEM_URI_NAME, cpuName), interface, object); return; } }); }); } inline void requestRoutesOperatingConfig(App& app) { BMCWEB_ROUTE( app, "/redfish/v1/Systems//Processors//OperatingConfigs//") .privileges(redfish::privileges::getOperatingConfig) .methods( boost::beast::http::verb:: get)([&app](const crow::Request& req, const std::shared_ptr& asyncResp, const std::string& systemName, const std::string& cpuName, const std::string& configName) { if (!redfish::setUpRedfishRoute(app, req, asyncResp)) { return; } if constexpr (BMCWEB_EXPERIMENTAL_REDFISH_MULTI_COMPUTER_SYSTEM) { // Option currently returns no systems. TBD messages::resourceNotFound(asyncResp->res, "ComputerSystem", systemName); return; } if (systemName != BMCWEB_REDFISH_SYSTEM_URI_NAME) { messages::resourceNotFound(asyncResp->res, "ComputerSystem", systemName); return; } // Ask for all objects implementing OperatingConfig so we can search // for one with a matching name constexpr std::array interfaces = { "xyz.openbmc_project.Inventory.Item.Cpu.OperatingConfig"}; dbus::utility::getSubTree( "/xyz/openbmc_project/inventory", 0, interfaces, [asyncResp, cpuName, configName]( const boost::system::error_code& ec, const dbus::utility::MapperGetSubTreeResponse& subtree) { if (ec) { BMCWEB_LOG_WARNING("D-Bus error: {}, {}", ec, ec.message()); messages::internalError(asyncResp->res); return; } const std::string expectedEnding = cpuName + '/' + configName; for (const auto& [objectPath, serviceMap] : subtree) { // Ignore any configs without matching cpuX/configY if (!objectPath.ends_with(expectedEnding) || serviceMap.empty()) { continue; } nlohmann::json& json = asyncResp->res.jsonValue; json["@odata.type"] = "#OperatingConfig.v1_0_0.OperatingConfig"; json["@odata.id"] = boost::urls::format( "/redfish/v1/Systems/{}/Processors/{}/OperatingConfigs/{}", BMCWEB_REDFISH_SYSTEM_URI_NAME, cpuName, configName); json["Name"] = "Processor Profile"; json["Id"] = configName; // Just use the first implementation of the object - not // expected that there would be multiple matching // services getOperatingConfigData( asyncResp, serviceMap.begin()->first, objectPath); return; } messages::resourceNotFound(asyncResp->res, "OperatingConfig", configName); }); }); } inline void requestRoutesProcessorCollection(App& app) { /** * Functions triggers appropriate requests on DBus */ BMCWEB_ROUTE(app, "/redfish/v1/Systems//Processors/") .privileges(redfish::privileges::headProcessorCollection) .methods(boost::beast::http::verb::head)( std::bind_front(handleProcessorCollectionHead, std::ref(app))); BMCWEB_ROUTE(app, "/redfish/v1/Systems//Processors/") .privileges(redfish::privileges::getProcessorCollection) .methods( boost::beast::http::verb:: get)([&app](const crow::Request& req, const std::shared_ptr& asyncResp, const std::string& systemName) { if (!redfish::setUpRedfishRoute(app, req, asyncResp)) { return; } if constexpr (BMCWEB_EXPERIMENTAL_REDFISH_MULTI_COMPUTER_SYSTEM) { // Option currently returns no systems. TBD messages::resourceNotFound(asyncResp->res, "ComputerSystem", systemName); return; } if (systemName != BMCWEB_REDFISH_SYSTEM_URI_NAME) { messages::resourceNotFound(asyncResp->res, "ComputerSystem", systemName); return; } asyncResp->res.addHeader( boost::beast::http::field::link, "; rel=describedby"); asyncResp->res.jsonValue["@odata.type"] = "#ProcessorCollection.ProcessorCollection"; asyncResp->res.jsonValue["Name"] = "Processor Collection"; asyncResp->res.jsonValue["@odata.id"] = std::format("/redfish/v1/Systems/{}/Processors", BMCWEB_REDFISH_SYSTEM_URI_NAME); collection_util::getCollectionMembers( asyncResp, boost::urls::format("/redfish/v1/Systems/{}/Processors", BMCWEB_REDFISH_SYSTEM_URI_NAME), processorInterfaces, "/xyz/openbmc_project/inventory"); }); } inline void requestRoutesProcessor(App& app) { /** * Functions triggers appropriate requests on DBus */ BMCWEB_ROUTE(app, "/redfish/v1/Systems//Processors//") .privileges(redfish::privileges::headProcessor) .methods(boost::beast::http::verb::head)( std::bind_front(handleProcessorHead, std::ref(app))); BMCWEB_ROUTE(app, "/redfish/v1/Systems//Processors//") .privileges(redfish::privileges::getProcessor) .methods( boost::beast::http::verb:: get)([&app](const crow::Request& req, const std::shared_ptr& asyncResp, const std::string& systemName, const std::string& processorId) { if (!redfish::setUpRedfishRoute(app, req, asyncResp)) { return; } if constexpr (BMCWEB_EXPERIMENTAL_REDFISH_MULTI_COMPUTER_SYSTEM) { // Option currently returns no systems. TBD messages::resourceNotFound(asyncResp->res, "ComputerSystem", systemName); return; } if (systemName != BMCWEB_REDFISH_SYSTEM_URI_NAME) { messages::resourceNotFound(asyncResp->res, "ComputerSystem", systemName); return; } asyncResp->res.addHeader( boost::beast::http::field::link, "; rel=describedby"); asyncResp->res.jsonValue["@odata.type"] = "#Processor.v1_18_0.Processor"; asyncResp->res.jsonValue["@odata.id"] = boost::urls::format( "/redfish/v1/Systems/{}/Processors/{}", BMCWEB_REDFISH_SYSTEM_URI_NAME, processorId); getProcessorObject( asyncResp, processorId, std::bind_front(getProcessorData, asyncResp, processorId)); }); BMCWEB_ROUTE(app, "/redfish/v1/Systems//Processors//") .privileges(redfish::privileges::patchProcessor) .methods(boost::beast::http::verb::patch)( [&app](const crow::Request& req, const std::shared_ptr& asyncResp, const std::string& systemName, const std::string& processorId) { if (!redfish::setUpRedfishRoute(app, req, asyncResp)) { return; } if constexpr (BMCWEB_EXPERIMENTAL_REDFISH_MULTI_COMPUTER_SYSTEM) { // Option currently returns no systems. TBD messages::resourceNotFound(asyncResp->res, "ComputerSystem", systemName); return; } if (systemName != BMCWEB_REDFISH_SYSTEM_URI_NAME) { messages::resourceNotFound(asyncResp->res, "ComputerSystem", systemName); return; } std::optional appliedConfigUri; if (!json_util::readJsonPatch( req, asyncResp->res, // "AppliedOperatingConfig/@odata.id", appliedConfigUri // )) { return; } if (appliedConfigUri) { // Check for 404 and find matching D-Bus object, then run // property patch handlers if that all succeeds. getProcessorObject( asyncResp, processorId, std::bind_front(patchAppliedOperatingConfig, asyncResp, processorId, *appliedConfigUri)); } }); } } // namespace redfish