#pragma once #include "libpldmresponder/pdr_utils.hpp" #include #include PHOSPHOR_LOG2_USING; namespace pldm { namespace responder { namespace pdr_state_sensor { using Json = nlohmann::json; static const Json empty{}; /** @brief Parse PDR JSON file and generate state sensor PDR structure * * @param[in] json - the JSON Object with the state sensor PDR * @param[out] handler - the Parser of PLDM command handler * @param[out] repo - pdr::RepoInterface * */ template void generateStateSensorPDR(const DBusInterface& dBusIntf, const Json& json, Handler& handler, pdr_utils::RepoInterface& repo) { static const std::vector emptyList{}; auto entries = json.value("entries", emptyList); for (const auto& e : entries) { size_t pdrSize = 0; auto sensors = e.value("sensors", emptyList); for (const auto& sensor : sensors) { auto set = sensor.value("set", empty); auto statesSize = set.value("size", 0); if (!statesSize) { error( "Malformed PDR JSON return pdrEntry;- no state set info, TYPE={STATE_SENSOR_PDR}", "STATE_SENSOR_PDR", static_cast(PLDM_STATE_SENSOR_PDR)); throw InternalFailure(); } pdrSize += sizeof(state_sensor_possible_states) - sizeof(bitfield8_t) + (sizeof(bitfield8_t) * statesSize); } pdrSize += sizeof(pldm_state_sensor_pdr) - sizeof(uint8_t); std::vector entry{}; entry.resize(pdrSize); pldm_state_sensor_pdr* pdr = reinterpret_cast(entry.data()); if (!pdr) { error("Failed to get state sensor PDR."); continue; } pdr->hdr.record_handle = 0; pdr->hdr.version = 1; pdr->hdr.type = PLDM_STATE_SENSOR_PDR; pdr->hdr.record_change_num = 0; pdr->hdr.length = pdrSize - sizeof(pldm_pdr_hdr); HTOLE32(pdr->hdr.record_handle); HTOLE16(pdr->hdr.record_change_num); HTOLE16(pdr->hdr.length); pdr->terminus_handle = TERMINUS_HANDLE; try { std::string entity_path = e.value("entity_path", ""); auto& associatedEntityMap = handler.getAssociateEntityMap(); if (entity_path != "" && associatedEntityMap.contains(entity_path)) { pdr->entity_type = associatedEntityMap.at(entity_path).entity_type; pdr->entity_instance = associatedEntityMap.at(entity_path).entity_instance_num; pdr->container_id = associatedEntityMap.at(entity_path).entity_container_id; } else { pdr->entity_type = e.value("type", 0); pdr->entity_instance = e.value("instance", 0); pdr->container_id = e.value("container", 0); // do not create the PDR when the FRU or the entity path is not // present if (!pdr->entity_type) { continue; } } } catch (const std::exception&) { pdr->entity_type = e.value("type", 0); pdr->entity_instance = e.value("instance", 0); pdr->container_id = e.value("container", 0); } pdr->sensor_init = PLDM_NO_INIT; pdr->sensor_auxiliary_names_pdr = false; if (sensors.size() > 8) { throw std::runtime_error("sensor size must be less than 8"); } pdr->composite_sensor_count = sensors.size(); HTOLE16(pdr->terminus_handle); HTOLE16(pdr->entity_type); HTOLE16(pdr->entity_instance); HTOLE16(pdr->container_id); pldm::responder::pdr_utils::DbusMappings dbusMappings{}; pldm::responder::pdr_utils::DbusValMaps dbusValMaps{}; uint8_t* start = entry.data() + sizeof(pldm_state_sensor_pdr) - sizeof(uint8_t); for (const auto& sensor : sensors) { auto set = sensor.value("set", empty); state_sensor_possible_states* possibleStates = reinterpret_cast(start); possibleStates->state_set_id = set.value("id", 0); HTOLE16(possibleStates->state_set_id); possibleStates->possible_states_size = set.value("size", 0); start += sizeof(possibleStates->state_set_id) + sizeof(possibleStates->possible_states_size); static const std::vector emptyStates{}; pldm::responder::pdr_utils::PossibleValues stateValues; auto states = set.value("states", emptyStates); for (const auto& state : states) { auto index = state / 8; auto bit = state - (index * 8); bitfield8_t* bf = reinterpret_cast(start + index); bf->byte |= 1 << bit; stateValues.emplace_back(state); } start += possibleStates->possible_states_size; auto dbusEntry = sensor.value("dbus", empty); auto objectPath = dbusEntry.value("path", ""); auto interface = dbusEntry.value("interface", ""); auto propertyName = dbusEntry.value("property_name", ""); auto propertyType = dbusEntry.value("property_type", ""); pldm::responder::pdr_utils::StatestoDbusVal dbusIdToValMap{}; pldm::utils::DBusMapping dbusMapping{}; try { auto service = dBusIntf.getService(objectPath.c_str(), interface.c_str()); dbusMapping = pldm::utils::DBusMapping{ objectPath, interface, propertyName, propertyType}; dbusIdToValMap = pldm::responder::pdr_utils::populateMapping( propertyType, dbusEntry["property_values"], stateValues); } catch (const std::exception& e) { error( "Failed to create sensor PDR, D-Bus object '{PATH}' returned {ERROR}", "PATH", objectPath, "ERROR", e); break; } dbusMappings.emplace_back(std::move(dbusMapping)); dbusValMaps.emplace_back(std::move(dbusIdToValMap)); } if (!(dbusMappings.empty() && dbusValMaps.empty())) { pdr->sensor_id = handler.getNextSensorId(); HTOLE16(pdr->sensor_id); handler.addDbusObjMaps( pdr->sensor_id, std::make_tuple(std::move(dbusMappings), std::move(dbusValMaps)), pldm::responder::pdr_utils::TypeId::PLDM_SENSOR_ID); pldm::responder::pdr_utils::PdrEntry pdrEntry{}; pdrEntry.data = entry.data(); pdrEntry.size = pdrSize; repo.addRecord(pdrEntry); } } } } // namespace pdr_state_sensor } // namespace responder } // namespace pldm