#include "platform.hpp" #include "common/types.hpp" #include "common/utils.hpp" #include "event_parser.hpp" #include "pdr.hpp" #include "pdr_numeric_effecter.hpp" #include "pdr_state_effecter.hpp" #include "pdr_state_sensor.hpp" #include "pdr_utils.hpp" #include "platform_numeric_effecter.hpp" #include "platform_state_effecter.hpp" #include "platform_state_sensor.hpp" #include "pldmd/dbus_impl_requester.hpp" #include "pldmd/handler.hpp" #include "requester/handler.hpp" #include #include #include PHOSPHOR_LOG2_USING; using namespace pldm::utils; using namespace pldm::responder::pdr; using namespace pldm::responder::pdr_utils; namespace pldm { namespace responder { namespace platform { using InternalFailure = sdbusplus::xyz::openbmc_project::Common::Error::InternalFailure; static const Json empty{}; void Handler::addDbusObjMaps( uint16_t id, std::tuple dbusObj, TypeId typeId) { if (typeId == TypeId::PLDM_SENSOR_ID) { sensorDbusObjMaps.emplace(id, dbusObj); } else { effecterDbusObjMaps.emplace(id, dbusObj); } } const std::tuple& Handler::getDbusObjMaps(uint16_t id, TypeId typeId) const { if (typeId == TypeId::PLDM_SENSOR_ID) { return sensorDbusObjMaps.at(id); } else { return effecterDbusObjMaps.at(id); } } void Handler::generate(const pldm::utils::DBusHandler& dBusIntf, const std::vector& dir, Repo& repo) { for (const auto& directory : dir) { info("Checking if directory '{DIRECTORY}' exists", "DIRECTORY", directory); if (!fs::exists(directory)) { return; } } // A map of PDR type to a lambda that handles creation of that PDR type. // The lambda essentially would parse the platform specific PDR JSONs to // generate the PDR structures. This function iterates through the map to // invoke all lambdas, so that all PDR types can be created. const std::map generateHandlers = { {PLDM_STATE_EFFECTER_PDR, [this](const DBusHandler& dBusIntf, const auto& json, RepoInterface& repo) { pdr_state_effecter::generateStateEffecterPDR< pldm::utils::DBusHandler, Handler>(dBusIntf, json, *this, repo); }}, {PLDM_NUMERIC_EFFECTER_PDR, [this](const DBusHandler& dBusIntf, const auto& json, RepoInterface& repo) { pdr_numeric_effecter::generateNumericEffecterPDR< pldm::utils::DBusHandler, Handler>(dBusIntf, json, *this, repo); }}, {PLDM_STATE_SENSOR_PDR, [this](const DBusHandler& dBusIntf, const auto& json, RepoInterface& repo) { pdr_state_sensor::generateStateSensorPDR(dBusIntf, json, *this, repo); }}}; Type pdrType{}; for (const auto& directory : dir) { for (const auto& dirEntry : fs::directory_iterator(directory)) { try { if (fs::is_regular_file(dirEntry.path().string())) { auto json = readJson(dirEntry.path().string()); if (!json.empty()) { auto effecterPDRs = json.value("effecterPDRs", empty); for (const auto& effecter : effecterPDRs) { pdrType = effecter.value("pdrType", 0); generateHandlers.at( pdrType)(dBusIntf, effecter, repo); } auto sensorPDRs = json.value("sensorPDRs", empty); for (const auto& sensor : sensorPDRs) { pdrType = sensor.value("pdrType", 0); generateHandlers.at( pdrType)(dBusIntf, sensor, repo); } } } } catch (const InternalFailure& e) { error( "PDR config directory '{PATH}' does not exist or empty for '{TYPE}' pdr, error - {ERROR}", "PATH", dirEntry.path(), "TYPE", pdrType, "ERROR", e); } catch (const Json::exception& e) { error( "Failed to parse PDR JSON file for '{TYPE}' pdr, error - {ERROR}", "TYPE", pdrType, "ERROR", e); pldm::utils::reportError( "xyz.openbmc_project.PLDM.Error.Generate.PDRJsonFileParseFail"); } catch (const std::exception& e) { error( "Failed to parse PDR JSON file for '{TYPE}' pdr, error - {ERROR}", "TYPE", pdrType, "ERROR", e); pldm::utils::reportError( "xyz.openbmc_project.PLDM.Error.Generate.PDRJsonFileParseFail"); } } } } Response Handler::getPDR(const pldm_msg* request, size_t payloadLength) { if (oemPlatformHandler) { auto rc = oemPlatformHandler->checkBMCState(); if (rc != PLDM_SUCCESS) { return ccOnlyResponse(request, PLDM_ERROR_NOT_READY); } } // Build FRU table if not built, since entity association PDR's // are built when the FRU table is constructed. if (fruHandler) { fruHandler->buildFRUTable(); } if (!pdrCreated) { generateTerminusLocatorPDR(pdrRepo); if (platformConfigHandler) { auto systemType = platformConfigHandler->getPlatformName(); if (systemType.has_value()) { // In case of normal poweron , the system type would have been // already filled by entity manager when ever BMC reaches Ready // state. If this is not filled by time we get a getpdr request // we can assume that the entity manager service is not present // on this system & continue to build the common PDR's. pdrJsonsDir.push_back(pdrJsonDir / systemType.value()); } } if (oemPlatformHandler != nullptr) { oemPlatformHandler->buildOEMPDR(pdrRepo); } generate(*dBusIntf, pdrJsonsDir, pdrRepo); pdrCreated = true; if (dbusToPLDMEventHandler) { deferredGetPDREvent = std::make_unique( event, std::bind(std::mem_fn(&pldm::responder::platform::Handler:: _processPostGetPDRActions), this, std::placeholders::_1)); } } Response response(sizeof(pldm_msg_hdr) + PLDM_GET_PDR_MIN_RESP_BYTES, 0); if (payloadLength != PLDM_GET_PDR_REQ_BYTES) { return CmdHandler::ccOnlyResponse(request, PLDM_ERROR_INVALID_LENGTH); } uint32_t recordHandle{}; uint32_t dataTransferHandle{}; uint8_t transferOpFlag{}; uint16_t reqSizeBytes{}; uint16_t recordChangeNum{}; auto rc = decode_get_pdr_req(request, payloadLength, &recordHandle, &dataTransferHandle, &transferOpFlag, &reqSizeBytes, &recordChangeNum); if (rc != PLDM_SUCCESS) { return CmdHandler::ccOnlyResponse(request, rc); } uint16_t respSizeBytes{}; uint8_t* recordData = nullptr; try { pdr_utils::PdrEntry e; auto record = pdr::getRecordByHandle(pdrRepo, recordHandle, e); if (record == NULL) { return CmdHandler::ccOnlyResponse( request, PLDM_PLATFORM_INVALID_RECORD_HANDLE); } if (reqSizeBytes) { respSizeBytes = e.size; if (respSizeBytes > reqSizeBytes) { respSizeBytes = reqSizeBytes; } recordData = e.data; } response.resize(sizeof(pldm_msg_hdr) + PLDM_GET_PDR_MIN_RESP_BYTES + respSizeBytes, 0); auto responsePtr = reinterpret_cast(response.data()); rc = encode_get_pdr_resp( request->hdr.instance_id, PLDM_SUCCESS, e.handle.nextRecordHandle, 0, PLDM_START_AND_END, respSizeBytes, recordData, 0, responsePtr); if (rc != PLDM_SUCCESS) { return ccOnlyResponse(request, rc); } } catch (const std::exception& e) { error( "Failed to access PDR record handle '{RECORD_HANDLE}', error - {ERROR}", "RECORD_HANDLE", recordHandle, "ERROR", e); return CmdHandler::ccOnlyResponse(request, PLDM_ERROR); } return response; } Response Handler::setStateEffecterStates(const pldm_msg* request, size_t payloadLength) { Response response( sizeof(pldm_msg_hdr) + PLDM_SET_STATE_EFFECTER_STATES_RESP_BYTES, 0); auto responsePtr = reinterpret_cast(response.data()); uint16_t effecterId; uint8_t compEffecterCnt; constexpr auto maxCompositeEffecterCnt = 8; std::vector stateField(maxCompositeEffecterCnt, {0, 0}); if ((payloadLength > PLDM_SET_STATE_EFFECTER_STATES_REQ_BYTES) || (payloadLength < sizeof(effecterId) + sizeof(compEffecterCnt) + sizeof(set_effecter_state_field))) { return CmdHandler::ccOnlyResponse(request, PLDM_ERROR_INVALID_LENGTH); } int rc = decode_set_state_effecter_states_req( request, payloadLength, &effecterId, &compEffecterCnt, stateField.data()); if (rc != PLDM_SUCCESS) { return CmdHandler::ccOnlyResponse(request, rc); } stateField.resize(compEffecterCnt); const pldm::utils::DBusHandler dBusIntf; uint16_t entityType{}; uint16_t entityInstance{}; uint16_t stateSetId{}; if (isOemStateEffecter(*this, effecterId, compEffecterCnt, entityType, entityInstance, stateSetId) && oemPlatformHandler != nullptr && !effecterDbusObjMaps.contains(effecterId)) { rc = oemPlatformHandler->oemSetStateEffecterStatesHandler( entityType, entityInstance, stateSetId, compEffecterCnt, stateField, effecterId); } else { rc = platform_state_effecter::setStateEffecterStatesHandler< pldm::utils::DBusHandler, Handler>(dBusIntf, *this, effecterId, stateField); } if (rc != PLDM_SUCCESS) { return CmdHandler::ccOnlyResponse(request, rc); } rc = encode_set_state_effecter_states_resp(request->hdr.instance_id, rc, responsePtr); if (rc != PLDM_SUCCESS) { return ccOnlyResponse(request, rc); } return response; } Response Handler::platformEventMessage(const pldm_msg* request, size_t payloadLength) { uint8_t formatVersion{}; uint8_t tid{}; uint8_t eventClass{}; size_t offset{}; auto rc = decode_platform_event_message_req( request, payloadLength, &formatVersion, &tid, &eventClass, &offset); if (rc != PLDM_SUCCESS) { return CmdHandler::ccOnlyResponse(request, rc); } if (eventClass == PLDM_HEARTBEAT_TIMER_ELAPSED_EVENT) { rc = PLDM_SUCCESS; if (oemPlatformHandler) { if (oemPlatformHandler->watchDogRunning()) { oemPlatformHandler->resetWatchDogTimer(); } else { oemPlatformHandler->setSurvTimer(tid, true); } } } else { try { const auto& handlers = eventHandlers.at(eventClass); for (const auto& handler : handlers) { auto rc = handler(request, payloadLength, formatVersion, tid, offset); if (rc != PLDM_SUCCESS) { return CmdHandler::ccOnlyResponse(request, rc); } } } catch (const std::out_of_range& e) { error("Failed to handle platform event msg, error - {ERROR}", "ERROR", e); return CmdHandler::ccOnlyResponse(request, PLDM_ERROR_INVALID_DATA); } } Response response( sizeof(pldm_msg_hdr) + PLDM_PLATFORM_EVENT_MESSAGE_RESP_BYTES, 0); auto responsePtr = reinterpret_cast(response.data()); rc = encode_platform_event_message_resp(request->hdr.instance_id, rc, PLDM_EVENT_NO_LOGGING, responsePtr); if (rc != PLDM_SUCCESS) { return ccOnlyResponse(request, rc); } return response; } int Handler::sensorEvent(const pldm_msg* request, size_t payloadLength, uint8_t /*formatVersion*/, uint8_t tid, size_t eventDataOffset) { uint16_t sensorId{}; uint8_t eventClass{}; size_t eventClassDataOffset{}; auto eventData = reinterpret_cast(request->payload) + eventDataOffset; auto eventDataSize = payloadLength - eventDataOffset; auto rc = decode_sensor_event_data(eventData, eventDataSize, &sensorId, &eventClass, &eventClassDataOffset); if (rc != PLDM_SUCCESS) { return rc; } auto eventClassData = reinterpret_cast(request->payload) + eventDataOffset + eventClassDataOffset; auto eventClassDataSize = payloadLength - eventDataOffset - eventClassDataOffset; if (eventClass == PLDM_STATE_SENSOR_STATE) { uint8_t sensorOffset{}; uint8_t eventState{}; uint8_t previousEventState{}; rc = decode_state_sensor_data(eventClassData, eventClassDataSize, &sensorOffset, &eventState, &previousEventState); if (rc != PLDM_SUCCESS) { return PLDM_ERROR; } // Emitting state sensor event signal emitStateSensorEventSignal(tid, sensorId, sensorOffset, eventState, previousEventState); // If there are no HOST PDR's, there is no further action if (hostPDRHandler == NULL) { return PLDM_SUCCESS; } // Handle PLDM events for which PDR is available SensorEntry sensorEntry{tid, sensorId}; pldm::pdr::EntityInfo entityInfo{}; pldm::pdr::CompositeSensorStates compositeSensorStates{}; std::vector stateSetIds{}; try { std::tie(entityInfo, compositeSensorStates, stateSetIds) = hostPDRHandler->lookupSensorInfo(sensorEntry); } catch (const std::out_of_range&) { // If there is no mapping for tid, sensorId combination, try // PLDM_TID_RESERVED, sensorId for terminus that is yet to // implement TL PDR. try { sensorEntry.terminusID = PLDM_TID_RESERVED; std::tie(entityInfo, compositeSensorStates, stateSetIds) = hostPDRHandler->lookupSensorInfo(sensorEntry); } // If there is no mapping for events return PLDM_SUCCESS catch (const std::out_of_range&) { return PLDM_SUCCESS; } } if (sensorOffset >= compositeSensorStates.size()) { return PLDM_ERROR_INVALID_DATA; } const auto& possibleStates = compositeSensorStates[sensorOffset]; if (!possibleStates.contains(eventState)) { return PLDM_ERROR_INVALID_DATA; } const auto& [containerId, entityType, entityInstance] = entityInfo; events::StateSensorEntry stateSensorEntry{ containerId, entityType, entityInstance, sensorOffset, stateSetIds[sensorOffset], false}; return hostPDRHandler->handleStateSensorEvent(stateSensorEntry, eventState); } else { return PLDM_ERROR_INVALID_DATA; } return PLDM_SUCCESS; } int Handler::pldmPDRRepositoryChgEvent( const pldm_msg* request, size_t payloadLength, uint8_t /*formatVersion*/, uint8_t tid, size_t eventDataOffset) { uint8_t eventDataFormat{}; uint8_t numberOfChangeRecords{}; size_t dataOffset{}; auto eventData = reinterpret_cast(request->payload) + eventDataOffset; auto eventDataSize = payloadLength - eventDataOffset; auto rc = decode_pldm_pdr_repository_chg_event_data( eventData, eventDataSize, &eventDataFormat, &numberOfChangeRecords, &dataOffset); if (rc != PLDM_SUCCESS) { return rc; } PDRRecordHandles pdrRecordHandles; if (eventDataFormat == FORMAT_IS_PDR_TYPES) { return PLDM_ERROR_INVALID_DATA; } if (eventDataFormat == FORMAT_IS_PDR_HANDLES) { uint8_t eventDataOperation{}; uint8_t numberOfChangeEntries{}; auto changeRecordData = eventData + dataOffset; auto changeRecordDataSize = eventDataSize - dataOffset; while (changeRecordDataSize) { rc = decode_pldm_pdr_repository_change_record_data( changeRecordData, changeRecordDataSize, &eventDataOperation, &numberOfChangeEntries, &dataOffset); if (rc != PLDM_SUCCESS) { return rc; } if (eventDataOperation == PLDM_RECORDS_ADDED || eventDataOperation == PLDM_RECORDS_MODIFIED) { if (eventDataOperation == PLDM_RECORDS_MODIFIED) { hostPDRHandler->isHostPdrModified = true; } rc = getPDRRecordHandles( reinterpret_cast( changeRecordData + dataOffset), changeRecordDataSize - dataOffset, static_cast(numberOfChangeEntries), pdrRecordHandles); if (rc != PLDM_SUCCESS) { return rc; } } changeRecordData += dataOffset + (numberOfChangeEntries * sizeof(ChangeEntry)); changeRecordDataSize -= dataOffset + (numberOfChangeEntries * sizeof(ChangeEntry)); } } if (hostPDRHandler) { // if we get a Repository change event with the eventDataFormat // as REFRESH_ENTIRE_REPOSITORY, then delete all the PDR's that // have the matched Terminus handle if (eventDataFormat == REFRESH_ENTIRE_REPOSITORY) { // We cannot get the Repo change event from the Terminus // that is not already added to the BMC repository for (auto it = hostPDRHandler->tlPDRInfo.cbegin(); it != hostPDRHandler->tlPDRInfo.cend();) { if (std::get<0>(it->second) == tid) { pldm_pdr_remove_pdrs_by_terminus_handle(pdrRepo.getPdr(), it->first); hostPDRHandler->tlPDRInfo.erase(it++); } else { ++it; } } } hostPDRHandler->fetchPDR(std::move(pdrRecordHandles)); } return PLDM_SUCCESS; } int Handler::getPDRRecordHandles( const ChangeEntry* changeEntryData, size_t changeEntryDataSize, size_t numberOfChangeEntries, PDRRecordHandles& pdrRecordHandles) { if (numberOfChangeEntries > (changeEntryDataSize / sizeof(ChangeEntry))) { return PLDM_ERROR_INVALID_DATA; } for (size_t i = 0; i < numberOfChangeEntries; i++) { pdrRecordHandles.push_back(changeEntryData[i]); } return PLDM_SUCCESS; } Response Handler::getNumericEffecterValue(const pldm_msg* request, size_t payloadLength) { if (payloadLength != PLDM_GET_NUMERIC_EFFECTER_VALUE_REQ_BYTES) { return ccOnlyResponse(request, PLDM_ERROR_INVALID_LENGTH); } uint16_t effecterId{}; auto rc = decode_get_numeric_effecter_value_req(request, payloadLength, &effecterId); if (rc != PLDM_SUCCESS) { return ccOnlyResponse(request, rc); } const pldm::utils::DBusHandler dBusIntf; uint8_t effecterDataSize{}; pldm::utils::PropertyValue dbusValue; std::string propertyType; using effecterOperationalState = uint8_t; using completionCode = uint8_t; rc = platform_numeric_effecter::getNumericEffecterData< pldm::utils::DBusHandler, Handler>( dBusIntf, *this, effecterId, effecterDataSize, propertyType, dbusValue); if (rc != PLDM_SUCCESS) { return ccOnlyResponse(request, rc); } // Refer DSP0248_1.2.0.pdf (section 22.3, Table 48) // Completion Code (uint8), Effecter Data Size(uint8), Effecter Operational // State(uint8), PendingValue (uint8|sint8|uint16|sint16|uint32|sint32 ) // PresentValue (uint8|sint8|uint16|sint16|uint32|sint32 ) // Size of PendingValue and PresentValue calculated based on size is // provided in effecter data size size_t responsePayloadLength = sizeof(completionCode) + sizeof(effecterDataSize) + sizeof(effecterOperationalState) + getEffecterDataSize(effecterDataSize) + getEffecterDataSize(effecterDataSize); Response response(responsePayloadLength + sizeof(pldm_msg_hdr)); auto responsePtr = reinterpret_cast(response.data()); rc = platform_numeric_effecter::getNumericEffecterValueHandler( propertyType, dbusValue, effecterDataSize, responsePtr, responsePayloadLength, request->hdr.instance_id); if (rc != PLDM_SUCCESS) { error( "Failed to get response of GetNumericEffecterValue for effecter ID '{EFFECTERID}', response code '{RC}'.", "EFFECTERID", effecterId, "RC", rc); return ccOnlyResponse(request, rc); } return response; } Response Handler::setNumericEffecterValue(const pldm_msg* request, size_t payloadLength) { Response response( sizeof(pldm_msg_hdr) + PLDM_SET_NUMERIC_EFFECTER_VALUE_RESP_BYTES); uint16_t effecterId{}; uint8_t effecterDataSize{}; uint8_t effecterValue[4] = {}; if ((payloadLength > sizeof(effecterId) + sizeof(effecterDataSize) + sizeof(union_effecter_data_size)) || (payloadLength < sizeof(effecterId) + sizeof(effecterDataSize) + 1)) { return ccOnlyResponse(request, PLDM_ERROR_INVALID_LENGTH); } int rc = decode_set_numeric_effecter_value_req( request, payloadLength, &effecterId, &effecterDataSize, effecterValue); if (rc == PLDM_SUCCESS) { const pldm::utils::DBusHandler dBusIntf; rc = platform_numeric_effecter::setNumericEffecterValueHandler< pldm::utils::DBusHandler, Handler>( dBusIntf, *this, effecterId, effecterDataSize, effecterValue, sizeof(effecterValue)); } return ccOnlyResponse(request, rc); } void Handler::generateTerminusLocatorPDR(Repo& repo) { std::vector pdrBuffer(sizeof(pldm_terminus_locator_pdr)); auto pdr = reinterpret_cast(pdrBuffer.data()); pdr->hdr.record_handle = 0; pdr->hdr.version = 1; pdr->hdr.type = PLDM_TERMINUS_LOCATOR_PDR; pdr->hdr.record_change_num = 0; pdr->hdr.length = sizeof(pldm_terminus_locator_pdr) - sizeof(pldm_pdr_hdr); pdr->terminus_handle = TERMINUS_HANDLE; pdr->validity = PLDM_TL_PDR_VALID; pdr->tid = TERMINUS_ID; pdr->container_id = 0x0; pdr->terminus_locator_type = PLDM_TERMINUS_LOCATOR_TYPE_MCTP_EID; pdr->terminus_locator_value_size = sizeof(pldm_terminus_locator_type_mctp_eid); auto locatorValue = reinterpret_cast( pdr->terminus_locator_value); locatorValue->eid = BmcMctpEid; PdrEntry pdrEntry{}; pdrEntry.data = pdrBuffer.data(); pdrEntry.size = pdrBuffer.size(); repo.addRecord(pdrEntry); if (hostPDRHandler) { hostPDRHandler->tlPDRInfo.insert_or_assign( pdr->terminus_handle, std::make_tuple(pdr->tid, locatorValue->eid, pdr->validity)); } } Response Handler::getStateSensorReadings(const pldm_msg* request, size_t payloadLength) { uint16_t sensorId{}; bitfield8_t sensorRearm{}; uint8_t reserved{}; if (payloadLength != PLDM_GET_STATE_SENSOR_READINGS_REQ_BYTES) { return ccOnlyResponse(request, PLDM_ERROR_INVALID_LENGTH); } int rc = decode_get_state_sensor_readings_req( request, payloadLength, &sensorId, &sensorRearm, &reserved); if (rc != PLDM_SUCCESS) { return ccOnlyResponse(request, rc); } // 0x01 to 0x08 uint8_t sensorRearmCount = std::popcount(sensorRearm.byte); std::vector stateField(sensorRearmCount); uint8_t comSensorCnt{}; const pldm::utils::DBusHandler dBusIntf; uint16_t entityType{}; uint16_t entityInstance{}; uint16_t stateSetId{}; if (isOemStateSensor(*this, sensorId, sensorRearmCount, comSensorCnt, entityType, entityInstance, stateSetId) && oemPlatformHandler != nullptr && !sensorDbusObjMaps.contains(sensorId)) { rc = oemPlatformHandler->getOemStateSensorReadingsHandler( entityType, entityInstance, stateSetId, comSensorCnt, stateField); } else { rc = platform_state_sensor::getStateSensorReadingsHandler< pldm::utils::DBusHandler, Handler>( dBusIntf, *this, sensorId, sensorRearmCount, comSensorCnt, stateField, dbusToPLDMEventHandler->getSensorCache()); } if (rc != PLDM_SUCCESS) { return ccOnlyResponse(request, rc); } Response response( sizeof(pldm_msg_hdr) + PLDM_GET_STATE_SENSOR_READINGS_MIN_RESP_BYTES + sizeof(get_sensor_state_field) * comSensorCnt); auto responsePtr = reinterpret_cast(response.data()); rc = encode_get_state_sensor_readings_resp( request->hdr.instance_id, rc, comSensorCnt, stateField.data(), responsePtr); if (rc != PLDM_SUCCESS) { return ccOnlyResponse(request, rc); } return response; } void Handler::_processPostGetPDRActions(sdeventplus::source::EventBase& /*source */) { deferredGetPDREvent.reset(); dbusToPLDMEventHandler->listenSensorEvent(pdrRepo, sensorDbusObjMaps); } bool isOemStateSensor(Handler& handler, uint16_t sensorId, uint8_t sensorRearmCount, uint8_t& compSensorCnt, uint16_t& entityType, uint16_t& entityInstance, uint16_t& stateSetId) { pldm_state_sensor_pdr* pdr = nullptr; std::unique_ptr stateSensorPdrRepo( pldm_pdr_init(), pldm_pdr_destroy); if (!stateSensorPdrRepo) { error("Failed to instantiate state sensor PDR repository"); return false; } Repo stateSensorPDRs(stateSensorPdrRepo.get()); getRepoByType(handler.getRepo(), stateSensorPDRs, PLDM_STATE_SENSOR_PDR); if (stateSensorPDRs.empty()) { error("Failed to get record by PDR type"); return false; } PdrEntry pdrEntry{}; auto pdrRecord = stateSensorPDRs.getFirstRecord(pdrEntry); while (pdrRecord) { pdr = reinterpret_cast(pdrEntry.data); assert(pdr != NULL); if (pdr->sensor_id != sensorId) { pdr = nullptr; pdrRecord = stateSensorPDRs.getNextRecord(pdrRecord, pdrEntry); continue; } auto tmpEntityType = pdr->entity_type; auto tmpEntityInstance = pdr->entity_instance; auto tmpCompSensorCnt = pdr->composite_sensor_count; auto tmpPossibleStates = reinterpret_cast( pdr->possible_states); auto tmpStateSetId = tmpPossibleStates->state_set_id; if (sensorRearmCount > tmpCompSensorCnt) { error( "The requester sent wrong sensor rearm count '{SENSOR_REARM_COUNT}' for the sensor ID '{SENSORID}'.", "SENSOR_REARM_COUNT", (uint16_t)sensorRearmCount, "SENSORID", sensorId); break; } if ((tmpEntityType >= PLDM_OEM_ENTITY_TYPE_START && tmpEntityType <= PLDM_OEM_ENTITY_TYPE_END) || (tmpStateSetId >= PLDM_OEM_STATE_SET_ID_START && tmpStateSetId < PLDM_OEM_STATE_SET_ID_END)) { entityType = tmpEntityType; entityInstance = tmpEntityInstance; stateSetId = tmpStateSetId; compSensorCnt = tmpCompSensorCnt; return true; } else { return false; } } return false; } bool isOemStateEffecter(Handler& handler, uint16_t effecterId, uint8_t compEffecterCnt, uint16_t& entityType, uint16_t& entityInstance, uint16_t& stateSetId) { pldm_state_effecter_pdr* pdr = nullptr; std::unique_ptr stateEffecterPdrRepo( pldm_pdr_init(), pldm_pdr_destroy); if (!stateEffecterPdrRepo) { error("Failed to instantiate state effecter PDR repository"); return false; } Repo stateEffecterPDRs(stateEffecterPdrRepo.get()); getRepoByType(handler.getRepo(), stateEffecterPDRs, PLDM_STATE_EFFECTER_PDR); if (stateEffecterPDRs.empty()) { error("Failed to get record by PDR type"); return false; } PdrEntry pdrEntry{}; auto pdrRecord = stateEffecterPDRs.getFirstRecord(pdrEntry); while (pdrRecord) { pdr = reinterpret_cast(pdrEntry.data); assert(pdr != NULL); if (pdr->effecter_id != effecterId) { pdr = nullptr; pdrRecord = stateEffecterPDRs.getNextRecord(pdrRecord, pdrEntry); continue; } auto tmpEntityType = pdr->entity_type; auto tmpEntityInstance = pdr->entity_instance; auto tmpPossibleStates = reinterpret_cast( pdr->possible_states); auto tmpStateSetId = tmpPossibleStates->state_set_id; if (compEffecterCnt > pdr->composite_effecter_count) { error( "The requester sent wrong composite effecter count '{COMPOSITE_EFFECTER_COUNT}' for the effecter ID '{EFFECTERID}'.", "COMPOSITE_EFFECTER_COUNT", compEffecterCnt, "EFFECTERID", effecterId); return false; } if ((tmpEntityType >= PLDM_OEM_ENTITY_TYPE_START && tmpEntityType <= PLDM_OEM_ENTITY_TYPE_END) || (tmpStateSetId >= PLDM_OEM_STATE_SET_ID_START && tmpStateSetId < PLDM_OEM_STATE_SET_ID_END)) { entityType = tmpEntityType; entityInstance = tmpEntityInstance; stateSetId = tmpStateSetId; return true; } else { return false; } } return false; } void Handler::setEventReceiver() { std::vector requestMsg( sizeof(pldm_msg_hdr) + PLDM_SET_EVENT_RECEIVER_REQ_BYTES); auto request = reinterpret_cast(requestMsg.data()); auto instanceId = instanceIdDb->next(eid); uint8_t eventMessageGlobalEnable = PLDM_EVENT_MESSAGE_GLOBAL_ENABLE_ASYNC_KEEP_ALIVE; uint8_t transportProtocolType = PLDM_TRANSPORT_PROTOCOL_TYPE_MCTP; uint8_t eventReceiverAddressInfo = pldm::responder::pdr::BmcMctpEid; uint16_t heartbeatTimer = HEARTBEAT_TIMEOUT; auto rc = encode_set_event_receiver_req( instanceId, eventMessageGlobalEnable, transportProtocolType, eventReceiverAddressInfo, heartbeatTimer, request); if (rc != PLDM_SUCCESS) { instanceIdDb->free(eid, instanceId); error( "Failed to encode set event receiver request, response code '{RC}'", "RC", lg2::hex, rc); return; } auto processSetEventReceiverResponse = [](mctp_eid_t /*eid*/, const pldm_msg* response, size_t respMsgLen) { if (response == nullptr || !respMsgLen) { error("Failed to receive response for setEventReceiver command"); return; } uint8_t completionCode{}; auto rc = decode_set_event_receiver_resp(response, respMsgLen, &completionCode); if (rc || completionCode) { error( "Failed to decode setEventReceiver command, response code '{RC}' and completion code '{CC}'", "RC", rc, "CC", completionCode); pldm::utils::reportError( "xyz.openbmc_project.bmc.pldm.InternalFailure"); } }; rc = handler->registerRequest( eid, instanceId, PLDM_PLATFORM, PLDM_SET_EVENT_RECEIVER, std::move(requestMsg), std::move(processSetEventReceiverResponse)); if (rc != PLDM_SUCCESS) { error("Failed to send the setEventReceiver request"); } if (oemPlatformHandler) { oemPlatformHandler->countSetEventReceiver(); oemPlatformHandler->checkAndDisableWatchDog(); } } } // namespace platform } // namespace responder } // namespace pldm