/* // 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"); sdbusplus::asio::getProperty( *crow::connections::systemBus, 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; bool slotPresent = false; std::string corePath = objPath + "/core"; size_t totalCores = 0; for (const auto& object : dbusData) { if (object.first.str == objPath) { getCpuDataByInterface(asyncResp, object.second); } else if (object.first.str.starts_with(corePath)) { for (const auto& interface : object.second) { if (interface.first == "xyz.openbmc_project.Inventory.Item") { for (const auto& property : interface.second) { if (property.first == "Present") { const bool* present = std::get_if(&property.second); if (present != nullptr) { if (*present) { slotPresent = true; totalCores++; } } } } } } } } // In getCpuDataByInterface(), state and health are set // based on the present and functional status. If core // count is zero, then it has a higher precedence. if (slotPresent) { asyncResp->res.jsonValue["TotalCores"] = totalCores; } 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"); sdbusplus::asio::getAllProperties( *crow::connections::systemBus, 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"); sdbusplus::asio::getAllProperties( *crow::connections::systemBus, 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"); sdbusplus::asio::getAllProperties( *crow::connections::systemBus, 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."); sdbusplus::asio::getAllProperties( *crow::connections::systemBus, 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 sdbusplus::asio::getAllProperties( *crow::connections::systemBus, 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. sdbusplus::asio::getProperty( *crow::connections::systemBus, 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"); sdbusplus::asio::getProperty( *crow::connections::systemBus, 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"); sdbusplus::asio::getProperty( *crow::connections::systemBus, 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) { sdbusplus::asio::getAllProperties( *crow::connections::systemBus, 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