#include "platform_manager.hpp" #include "manager.hpp" #include "terminus_manager.hpp" #include #include PHOSPHOR_LOG2_USING; namespace pldm { namespace platform_mc { exec::task PlatformManager::initTerminus() { for (auto& [tid, terminus] : termini) { if (terminus->initialized) { continue; } /* Get Fru */ uint16_t totalTableRecords = 0; if (terminus->doesSupportCommand(PLDM_FRU, PLDM_GET_FRU_RECORD_TABLE_METADATA)) { auto rc = co_await getFRURecordTableMetadata(tid, &totalTableRecords); if (rc) { lg2::error( "Failed to get FRU Metadata for terminus {TID}, error {ERROR}", "TID", tid, "ERROR", rc); } if (!totalTableRecords) { lg2::info("Fru record table meta data has 0 records"); } } std::vector fruData{}; if ((totalTableRecords != 0) && terminus->doesSupportCommand(PLDM_FRU, PLDM_GET_FRU_RECORD_TABLE)) { auto rc = co_await getFRURecordTables(tid, totalTableRecords, fruData); if (rc) { lg2::error( "Failed to get Fru Record table for terminus {TID}, error {ERROR}", "TID", tid, "ERROR", rc); } } if (terminus->doesSupportCommand(PLDM_PLATFORM, PLDM_GET_PDR)) { auto rc = co_await getPDRs(terminus); if (rc) { lg2::error( "Failed to fetch PDRs for terminus with TID: {TID}, error: {ERROR}", "TID", tid, "ERROR", rc); continue; // Continue to next terminus } terminus->parseTerminusPDRs(); } /** * Need terminus name from PDRs before updating Inventory object with * Fru data */ if (fruData.size()) { updateInventoryWithFru(tid, fruData.data(), fruData.size()); } uint16_t terminusMaxBufferSize = terminus->maxBufferSize; if (!terminus->doesSupportCommand(PLDM_PLATFORM, PLDM_EVENT_MESSAGE_BUFFER_SIZE)) { terminusMaxBufferSize = PLDM_PLATFORM_DEFAULT_MESSAGE_BUFFER_SIZE; } else { /* Get maxBufferSize use PLDM command eventMessageBufferSize */ auto rc = co_await eventMessageBufferSize( tid, terminus->maxBufferSize, terminusMaxBufferSize); if (rc != PLDM_SUCCESS) { lg2::error( "Failed to get message buffer size for terminus with TID: {TID}, error: {ERROR}", "TID", tid, "ERROR", rc); terminusMaxBufferSize = PLDM_PLATFORM_DEFAULT_MESSAGE_BUFFER_SIZE; } } terminus->maxBufferSize = std::min(terminus->maxBufferSize, terminusMaxBufferSize); auto rc = co_await configEventReceiver(tid); if (rc) { lg2::error( "Failed to config event receiver for terminus with TID: {TID}, error: {ERROR}", "TID", tid, "ERROR", rc); } terminus->initialized = true; if (manager) { manager->startSensorPolling(tid); } else { lg2::error( "Cannot start sensor polling for TID: {TID} because the manager is not initialized.", "TID", tid); } } co_return PLDM_SUCCESS; } exec::task PlatformManager::configEventReceiver(pldm_tid_t tid) { if (!termini.contains(tid)) { co_return PLDM_ERROR; } auto& terminus = termini[tid]; if (!terminus->doesSupportCommand(PLDM_PLATFORM, PLDM_EVENT_MESSAGE_SUPPORTED)) { terminus->synchronyConfigurationSupported.byte = 1 << PLDM_EVENT_MESSAGE_GLOBAL_ENABLE_ASYNC_KEEP_ALIVE; } else { /** * Get synchronyConfigurationSupported use PLDM command * eventMessageBufferSize */ uint8_t synchronyConfiguration = 0; uint8_t numberEventClassReturned = 0; std::vector eventClass{}; auto rc = co_await eventMessageSupported( tid, 1, synchronyConfiguration, terminus->synchronyConfigurationSupported, numberEventClassReturned, eventClass); if (rc != PLDM_SUCCESS) { lg2::error( "Failed to get event message supported for terminus with TID: {TID}, error: {ERROR}", "TID", tid, "ERROR", rc); terminus->synchronyConfigurationSupported.byte = 0; } } if (!terminus->doesSupportCommand(PLDM_PLATFORM, PLDM_SET_EVENT_RECEIVER)) { lg2::error("Terminus {TID} does not support Event", "TID", tid); co_return PLDM_ERROR; } /** * Set Event receiver base on synchronyConfigurationSupported data * use PLDM command SetEventReceiver */ pldm_event_message_global_enable eventMessageGlobalEnable = PLDM_EVENT_MESSAGE_GLOBAL_DISABLE; uint16_t heartbeatTimer = 0; /* Use PLDM_EVENT_MESSAGE_GLOBAL_ENABLE_ASYNC_KEEP_ALIVE when * for eventMessageGlobalEnable when the terminus supports that type */ if (terminus->synchronyConfigurationSupported.byte & (1 << PLDM_EVENT_MESSAGE_GLOBAL_ENABLE_ASYNC_KEEP_ALIVE)) { heartbeatTimer = HEARTBEAT_TIMEOUT; eventMessageGlobalEnable = PLDM_EVENT_MESSAGE_GLOBAL_ENABLE_ASYNC_KEEP_ALIVE; } /* Use PLDM_EVENT_MESSAGE_GLOBAL_ENABLE_ASYNC when * for eventMessageGlobalEnable when the terminus does not support * PLDM_EVENT_MESSAGE_GLOBAL_ENABLE_ASYNC_KEEP_ALIVE * and supports PLDM_EVENT_MESSAGE_GLOBAL_ENABLE_ASYNC type */ else if (terminus->synchronyConfigurationSupported.byte & (1 << PLDM_EVENT_MESSAGE_GLOBAL_ENABLE_ASYNC)) { eventMessageGlobalEnable = PLDM_EVENT_MESSAGE_GLOBAL_ENABLE_ASYNC; } /* Only use PLDM_EVENT_MESSAGE_GLOBAL_ENABLE_POLLING * for eventMessageGlobalEnable when the terminus only supports * this type */ else if (terminus->synchronyConfigurationSupported.byte & (1 << PLDM_EVENT_MESSAGE_GLOBAL_ENABLE_POLLING)) { eventMessageGlobalEnable = PLDM_EVENT_MESSAGE_GLOBAL_ENABLE_POLLING; } if (eventMessageGlobalEnable != PLDM_EVENT_MESSAGE_GLOBAL_DISABLE) { auto rc = co_await setEventReceiver(tid, eventMessageGlobalEnable, PLDM_TRANSPORT_PROTOCOL_TYPE_MCTP, heartbeatTimer); if (rc != PLDM_SUCCESS) { lg2::error( "Failed to set event receiver for terminus with TID: {TID}, error: {ERROR}", "TID", tid, "ERROR", rc); } } co_return PLDM_SUCCESS; } exec::task PlatformManager::getPDRs(std::shared_ptr terminus) { pldm_tid_t tid = terminus->getTid(); /* Setting default values when getPDRRepositoryInfo fails or does not * support */ uint8_t repositoryState = PLDM_AVAILABLE; uint32_t recordCount = std::numeric_limits::max(); uint32_t repositorySize = 0; uint32_t largestRecordSize = std::numeric_limits::max(); if (terminus->doesSupportCommand(PLDM_PLATFORM, PLDM_GET_PDR_REPOSITORY_INFO)) { auto rc = co_await getPDRRepositoryInfo(tid, repositoryState, recordCount, repositorySize, largestRecordSize); if (rc) { lg2::error( "Failed to get PDR Repository Info for terminus with TID: {TID}, error: {ERROR}", "TID", tid, "ERROR", rc); } else { recordCount = std::min(recordCount + 1, std::numeric_limits::max()); largestRecordSize = std::min(largestRecordSize + 1, std::numeric_limits::max()); } } if (repositoryState != PLDM_AVAILABLE) { co_return PLDM_ERROR_NOT_READY; } uint32_t recordHndl = 0; uint32_t nextRecordHndl = 0; uint32_t nextDataTransferHndl = 0; uint8_t transferFlag = 0; uint16_t responseCnt = 0; constexpr uint16_t recvBufSize = PLDM_PLATFORM_GETPDR_MAX_RECORD_BYTES; std::vector recvBuf(recvBufSize); uint8_t transferCrc = 0; terminus->pdrs.clear(); uint32_t receivedRecordCount = 0; do { auto rc = co_await getPDR(tid, recordHndl, 0, PLDM_GET_FIRSTPART, recvBufSize, 0, nextRecordHndl, nextDataTransferHndl, transferFlag, responseCnt, recvBuf, transferCrc); if (rc) { lg2::error( "Failed to get PDRs for terminus {TID}, error: {RC}, first part of record handle {RECORD}", "TID", tid, "RC", rc, "RECORD", recordHndl); terminus->pdrs.clear(); co_return rc; } if (transferFlag == PLDM_PLATFORM_TRANSFER_START_AND_END) { // single-part terminus->pdrs.emplace_back(std::vector( recvBuf.begin(), recvBuf.begin() + responseCnt)); recordHndl = nextRecordHndl; } else { // multipart transfer uint32_t receivedRecordSize = responseCnt; auto pdrHdr = new (recvBuf.data()) pldm_pdr_hdr; uint16_t recordChgNum = le16toh(pdrHdr->record_change_num); std::vector receivedPdr(recvBuf.begin(), recvBuf.begin() + responseCnt); do { rc = co_await getPDR( tid, recordHndl, nextDataTransferHndl, PLDM_GET_NEXTPART, recvBufSize, recordChgNum, nextRecordHndl, nextDataTransferHndl, transferFlag, responseCnt, recvBuf, transferCrc); if (rc) { lg2::error( "Failed to get PDRs for terminus {TID}, error: {RC}, get middle part of record handle {RECORD}", "TID", tid, "RC", rc, "RECORD", recordHndl); terminus->pdrs.clear(); co_return rc; } receivedPdr.insert(receivedPdr.end(), recvBuf.begin(), recvBuf.begin() + responseCnt); receivedRecordSize += responseCnt; if (transferFlag == PLDM_PLATFORM_TRANSFER_END) { terminus->pdrs.emplace_back(std::move(receivedPdr)); recordHndl = nextRecordHndl; } } while (nextDataTransferHndl != 0 && receivedRecordSize < largestRecordSize); } receivedRecordCount++; } while (nextRecordHndl != 0 && receivedRecordCount < recordCount); co_return PLDM_SUCCESS; } exec::task PlatformManager::getPDR( const pldm_tid_t tid, const uint32_t recordHndl, const uint32_t dataTransferHndl, const uint8_t transferOpFlag, const uint16_t requestCnt, const uint16_t recordChgNum, uint32_t& nextRecordHndl, uint32_t& nextDataTransferHndl, uint8_t& transferFlag, uint16_t& responseCnt, std::vector& recordData, uint8_t& transferCrc) { Request request(sizeof(pldm_msg_hdr) + PLDM_GET_PDR_REQ_BYTES); auto requestMsg = new (request.data()) pldm_msg; auto rc = encode_get_pdr_req(0, recordHndl, dataTransferHndl, transferOpFlag, requestCnt, recordChgNum, requestMsg, PLDM_GET_PDR_REQ_BYTES); if (rc) { lg2::error( "Failed to encode request GetPDR for terminus ID {TID}, error {RC} ", "TID", tid, "RC", rc); co_return rc; } const pldm_msg* responseMsg = nullptr; size_t responseLen = 0; rc = co_await terminusManager.sendRecvPldmMsg(tid, request, &responseMsg, &responseLen); if (rc) { lg2::error( "Failed to send GetPDR message for terminus {TID}, error {RC}", "TID", tid, "RC", rc); co_return rc; } uint8_t completionCode; rc = decode_get_pdr_resp(responseMsg, responseLen, &completionCode, &nextRecordHndl, &nextDataTransferHndl, &transferFlag, &responseCnt, recordData.data(), recordData.size(), &transferCrc); if (rc) { lg2::error( "Failed to decode response GetPDR for terminus ID {TID}, error {RC} ", "TID", tid, "RC", rc); co_return rc; } if (completionCode != PLDM_SUCCESS) { lg2::error("Error : GetPDR for terminus ID {TID}, complete code {CC}.", "TID", tid, "CC", completionCode); co_return rc; } co_return completionCode; } exec::task PlatformManager::getPDRRepositoryInfo( const pldm_tid_t tid, uint8_t& repositoryState, uint32_t& recordCount, uint32_t& repositorySize, uint32_t& largestRecordSize) { Request request(sizeof(pldm_msg_hdr)); auto requestMsg = new (request.data()) pldm_msg; auto rc = encode_pldm_header_only(PLDM_REQUEST, 0, PLDM_PLATFORM, PLDM_GET_PDR_REPOSITORY_INFO, requestMsg); if (rc) { lg2::error( "Failed to encode request GetPDRRepositoryInfo for terminus ID {TID}, error {RC} ", "TID", tid, "RC", rc); co_return rc; } const pldm_msg* responseMsg = nullptr; size_t responseLen = 0; rc = co_await terminusManager.sendRecvPldmMsg(tid, request, &responseMsg, &responseLen); if (rc) { lg2::error( "Failed to send GetPDRRepositoryInfo message for terminus {TID}, error {RC}", "TID", tid, "RC", rc); co_return rc; } uint8_t completionCode = 0; std::array updateTime = {}; std::array oemUpdateTime = {}; uint8_t dataTransferHandleTimeout = 0; rc = decode_get_pdr_repository_info_resp( responseMsg, responseLen, &completionCode, &repositoryState, updateTime.data(), oemUpdateTime.data(), &recordCount, &repositorySize, &largestRecordSize, &dataTransferHandleTimeout); if (rc) { lg2::error( "Failed to decode response GetPDRRepositoryInfo for terminus ID {TID}, error {RC} ", "TID", tid, "RC", rc); co_return rc; } if (completionCode != PLDM_SUCCESS) { lg2::error( "Error : GetPDRRepositoryInfo for terminus ID {TID}, complete code {CC}.", "TID", tid, "CC", completionCode); co_return rc; } co_return completionCode; } exec::task PlatformManager::eventMessageBufferSize( pldm_tid_t tid, uint16_t receiverMaxBufferSize, uint16_t& terminusBufferSize) { Request request( sizeof(pldm_msg_hdr) + PLDM_EVENT_MESSAGE_BUFFER_SIZE_REQ_BYTES); auto requestMsg = new (request.data()) pldm_msg; auto rc = encode_event_message_buffer_size_req(0, receiverMaxBufferSize, requestMsg); if (rc) { lg2::error( "Failed to encode request GetPDRRepositoryInfo for terminus ID {TID}, error {RC} ", "TID", tid, "RC", rc); co_return rc; } const pldm_msg* responseMsg = nullptr; size_t responseLen = 0; rc = co_await terminusManager.sendRecvPldmMsg(tid, request, &responseMsg, &responseLen); if (rc) { lg2::error( "Failed to send EventMessageBufferSize message for terminus {TID}, error {RC}", "TID", tid, "RC", rc); co_return rc; } uint8_t completionCode; rc = decode_event_message_buffer_size_resp( responseMsg, responseLen, &completionCode, &terminusBufferSize); if (rc) { lg2::error( "Failed to decode response EventMessageBufferSize for terminus ID {TID}, error {RC} ", "TID", tid, "RC", rc); co_return rc; } if (completionCode != PLDM_SUCCESS) { lg2::error( "Error : EventMessageBufferSize for terminus ID {TID}, complete code {CC}.", "TID", tid, "CC", completionCode); co_return completionCode; } co_return completionCode; } exec::task PlatformManager::setEventReceiver( pldm_tid_t tid, pldm_event_message_global_enable eventMessageGlobalEnable, pldm_transport_protocol_type protocolType, uint16_t heartbeatTimer) { size_t requestBytes = PLDM_SET_EVENT_RECEIVER_REQ_BYTES; /** * Ignore heartbeatTimer bytes when eventMessageGlobalEnable is not * ENABLE_ASYNC_KEEP_ALIVE */ if (eventMessageGlobalEnable != PLDM_EVENT_MESSAGE_GLOBAL_ENABLE_ASYNC_KEEP_ALIVE) { requestBytes = requestBytes - sizeof(heartbeatTimer); } Request request(sizeof(pldm_msg_hdr) + requestBytes); auto requestMsg = new (request.data()) pldm_msg; auto rc = encode_set_event_receiver_req( 0, eventMessageGlobalEnable, protocolType, terminusManager.getLocalEid(), heartbeatTimer, requestMsg); if (rc) { lg2::error( "Failed to encode request SetEventReceiver for terminus ID {TID}, error {RC} ", "TID", tid, "RC", rc); co_return rc; } const pldm_msg* responseMsg = nullptr; size_t responseLen = 0; rc = co_await terminusManager.sendRecvPldmMsg(tid, request, &responseMsg, &responseLen); if (rc) { lg2::error( "Failed to send SetEventReceiver message for terminus {TID}, error {RC}", "TID", tid, "RC", rc); co_return rc; } uint8_t completionCode; rc = decode_set_event_receiver_resp(responseMsg, responseLen, &completionCode); if (rc) { lg2::error( "Failed to decode response SetEventReceiver for terminus ID {TID}, error {RC} ", "TID", tid, "RC", rc); co_return rc; } if (completionCode != PLDM_SUCCESS) { lg2::error( "Error : SetEventReceiver for terminus ID {TID}, complete code {CC}.", "TID", tid, "CC", completionCode); co_return completionCode; } co_return completionCode; } exec::task PlatformManager::eventMessageSupported( pldm_tid_t tid, uint8_t formatVersion, uint8_t& synchronyConfiguration, bitfield8_t& synchronyConfigurationSupported, uint8_t& numberEventClassReturned, std::vector& eventClass) { Request request( sizeof(pldm_msg_hdr) + PLDM_EVENT_MESSAGE_SUPPORTED_REQ_BYTES); auto requestMsg = new (request.data()) pldm_msg; auto rc = encode_event_message_supported_req(0, formatVersion, requestMsg); if (rc) { lg2::error( "Failed to encode request EventMessageSupported for terminus ID {TID}, error {RC} ", "TID", tid, "RC", rc); co_return rc; } const pldm_msg* responseMsg = nullptr; size_t responseLen = 0; rc = co_await terminusManager.sendRecvPldmMsg(tid, request, &responseMsg, &responseLen); if (rc) { lg2::error( "Failed to send EventMessageSupported message for terminus {TID}, error {RC}", "TID", tid, "RC", rc); co_return rc; } uint8_t completionCode = 0; uint8_t eventClassCount = static_cast(responseLen) - PLDM_EVENT_MESSAGE_SUPPORTED_MIN_RESP_BYTES; eventClass.resize(eventClassCount); rc = decode_event_message_supported_resp( responseMsg, responseLen, &completionCode, &synchronyConfiguration, &synchronyConfigurationSupported, &numberEventClassReturned, eventClass.data(), eventClassCount); if (rc) { lg2::error( "Failed to decode response EventMessageSupported for terminus ID {TID}, error {RC} ", "TID", tid, "RC", rc); co_return rc; } if (completionCode != PLDM_SUCCESS) { lg2::error( "Error : EventMessageSupported for terminus ID {TID}, complete code {CC}.", "TID", tid, "CC", completionCode); co_return completionCode; } co_return completionCode; } exec::task PlatformManager::getFRURecordTableMetadata(pldm_tid_t tid, uint16_t* total) { Request request( sizeof(pldm_msg_hdr) + PLDM_GET_FRU_RECORD_TABLE_METADATA_REQ_BYTES); auto requestMsg = new (request.data()) pldm_msg; auto rc = encode_get_fru_record_table_metadata_req( 0, requestMsg, PLDM_GET_FRU_RECORD_TABLE_METADATA_REQ_BYTES); if (rc) { lg2::error( "Failed to encode request GetFRURecordTableMetadata for terminus ID {TID}, error {RC} ", "TID", tid, "RC", rc); co_return rc; } const pldm_msg* responseMsg = nullptr; size_t responseLen = 0; rc = co_await terminusManager.sendRecvPldmMsg(tid, request, &responseMsg, &responseLen); if (rc) { lg2::error( "Failed to send GetFRURecordTableMetadata message for terminus {TID}, error {RC}", "TID", tid, "RC", rc); co_return rc; } uint8_t completionCode = 0; if (responseMsg == nullptr || !responseLen) { lg2::error( "No response data for GetFRURecordTableMetadata for terminus {TID}", "TID", tid); co_return rc; } uint8_t fru_data_major_version, fru_data_minor_version; uint32_t fru_table_maximum_size, fru_table_length; uint16_t total_record_set_identifiers; uint32_t checksum; rc = decode_get_fru_record_table_metadata_resp( responseMsg, responseLen, &completionCode, &fru_data_major_version, &fru_data_minor_version, &fru_table_maximum_size, &fru_table_length, &total_record_set_identifiers, total, &checksum); if (rc) { lg2::error( "Failed to decode response GetFRURecordTableMetadata for terminus ID {TID}, error {RC} ", "TID", tid, "RC", rc); co_return rc; } if (completionCode != PLDM_SUCCESS) { lg2::error( "Error : GetFRURecordTableMetadata for terminus ID {TID}, complete code {CC}.", "TID", tid, "CC", completionCode); co_return rc; } co_return rc; } exec::task PlatformManager::getFRURecordTable( pldm_tid_t tid, const uint32_t dataTransferHndl, const uint8_t transferOpFlag, uint32_t* nextDataTransferHndl, uint8_t* transferFlag, size_t* responseCnt, std::vector& recordData) { Request request(sizeof(pldm_msg_hdr) + PLDM_GET_FRU_RECORD_TABLE_REQ_BYTES); auto requestMsg = new (request.data()) pldm_msg; auto rc = encode_get_fru_record_table_req( 0, dataTransferHndl, transferOpFlag, requestMsg, PLDM_GET_FRU_RECORD_TABLE_REQ_BYTES); if (rc != PLDM_SUCCESS) { lg2::error( "Failed to encode request GetFRURecordTable for terminus ID {TID}, error {RC} ", "TID", tid, "RC", rc); co_return rc; } const pldm_msg* responseMsg = nullptr; size_t responseLen = 0; rc = co_await terminusManager.sendRecvPldmMsg(tid, request, &responseMsg, &responseLen); if (rc) { lg2::error( "Failed to send GetFRURecordTable message for terminus {TID}, error {RC}", "TID", tid, "RC", rc); co_return rc; } uint8_t completionCode = 0; if (responseMsg == nullptr || !responseLen) { lg2::error("No response data for GetFRURecordTable for terminus {TID}", "TID", tid); co_return rc; } auto responsePtr = reinterpret_cast(responseMsg); rc = decode_get_fru_record_table_resp( responsePtr, responseLen - sizeof(pldm_msg_hdr), &completionCode, nextDataTransferHndl, transferFlag, recordData.data(), responseCnt); if (rc) { lg2::error( "Failed to decode response GetFRURecordTable for terminus ID {TID}, error {RC} ", "TID", tid, "RC", rc); co_return rc; } if (completionCode != PLDM_SUCCESS) { lg2::error( "Error : GetFRURecordTable for terminus ID {TID}, complete code {CC}.", "TID", tid, "CC", completionCode); co_return rc; } co_return rc; } void PlatformManager::updateInventoryWithFru( pldm_tid_t tid, const uint8_t* fruData, const size_t fruLen) { if (tid == PLDM_TID_RESERVED || !termini.contains(tid) || !termini[tid]) { lg2::error("Invalid terminus {TID}", "TID", tid); return; } termini[tid]->updateInventoryWithFru(fruData, fruLen); } exec::task PlatformManager::getFRURecordTables( pldm_tid_t tid, const uint16_t& totalTableRecords, std::vector& fruData) { if (!totalTableRecords) { lg2::info("Fru record table has 0 records"); co_return PLDM_ERROR; } uint32_t dataTransferHndl = 0; uint32_t nextDataTransferHndl = 0; uint8_t transferFlag = 0; uint8_t transferOpFlag = PLDM_GET_FIRSTPART; size_t responseCnt = 0; std::vector recvBuf(PLDM_PLATFORM_GETPDR_MAX_RECORD_BYTES); size_t fruLength = 0; std::vector receivedFru(0); do { auto rc = co_await getFRURecordTable( tid, dataTransferHndl, transferOpFlag, &nextDataTransferHndl, &transferFlag, &responseCnt, recvBuf); if (rc) { lg2::error( "Failed to get Fru Record Data for terminus {TID}, error: {RC}, first part of data handle {RECORD}", "TID", tid, "RC", rc, "RECORD", dataTransferHndl); co_return rc; } receivedFru.insert(receivedFru.end(), recvBuf.begin(), recvBuf.begin() + responseCnt); fruLength += responseCnt; if (transferFlag == PLDM_PLATFORM_TRANSFER_START_AND_END || transferFlag == PLDM_PLATFORM_TRANSFER_END) { break; } // multipart transfer dataTransferHndl = nextDataTransferHndl; transferOpFlag = PLDM_GET_NEXTPART; } while (nextDataTransferHndl != 0); if (fruLength != receivedFru.size()) { lg2::error( "Size of Fru Record Data {SIZE} for terminus {TID} is different the responded size {RSPSIZE}.", "SIZE", receivedFru.size(), "RSPSIZE", fruLength); co_return PLDM_ERROR_INVALID_LENGTH; } fruData = receivedFru; co_return PLDM_SUCCESS; } } // namespace platform_mc } // namespace pldm