#include "config.h" #include "common_utility.hpp" #include "defines.hpp" #include "ibm_vpd_utils.hpp" #include "ipz_parser.hpp" #include "keyword_vpd_parser.hpp" #include "memory_vpd_parser.hpp" #include "parser_factory.hpp" #include "vpd_exceptions.hpp" #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace std; using namespace openpower::vpd; using namespace CLI; using namespace vpd::keyword::parser; using namespace openpower::vpd::constants; namespace fs = filesystem; using json = nlohmann::json; using namespace openpower::vpd::parser::factory; using namespace openpower::vpd::inventory; using namespace openpower::vpd::memory::parser; using namespace openpower::vpd::parser::interface; using namespace openpower::vpd::exceptions; using namespace phosphor::logging; static const deviceTreeMap deviceTreeSystemTypeMap = { {RAINIER_2U, "conf-aspeed-bmc-ibm-rainier.dtb"}, {RAINIER_2U_V2, "conf-aspeed-bmc-ibm-rainier-v2.dtb"}, {RAINIER_4U, "conf-aspeed-bmc-ibm-rainier-4u.dtb"}, {RAINIER_4U_V2, "conf-aspeed-bmc-ibm-rainier-4u-v2.dtb"}, {RAINIER_1S4U, "conf-aspeed-bmc-ibm-rainier-1s4u.dtb"}, {EVEREST, "conf-aspeed-bmc-ibm-everest.dtb"}}; /** * @brief Returns the power state for chassis0 */ static auto getPowerState() { // TODO: How do we handle multiple chassis? string powerState{}; auto bus = sdbusplus::bus::new_default(); auto properties = bus.new_method_call("xyz.openbmc_project.State.Chassis", "/xyz/openbmc_project/state/chassis0", "org.freedesktop.DBus.Properties", "Get"); properties.append("xyz.openbmc_project.State.Chassis"); properties.append("CurrentPowerState"); auto result = bus.call(properties); if (!result.is_method_error()) { variant val; result.read(val); if (auto pVal = get_if(&val)) { powerState = *pVal; } } cout << "Power state is: " << powerState << endl; return powerState; } /** * @brief Expands location codes */ static auto expandLocationCode(const string& unexpanded, const Parsed& vpdMap, bool isSystemVpd) { auto expanded{unexpanded}; static constexpr auto SYSTEM_OBJECT = "/system/chassis/motherboard"; static constexpr auto VCEN_IF = "com.ibm.ipzvpd.VCEN"; static constexpr auto VSYS_IF = "com.ibm.ipzvpd.VSYS"; size_t idx = expanded.find("fcs"); try { if (idx != string::npos) { string fc{}; string se{}; if (isSystemVpd) { const auto& fcData = vpdMap.at("VCEN").at("FC"); const auto& seData = vpdMap.at("VCEN").at("SE"); fc = string(fcData.data(), fcData.size()); se = string(seData.data(), seData.size()); } else { fc = readBusProperty(SYSTEM_OBJECT, VCEN_IF, "FC"); se = readBusProperty(SYSTEM_OBJECT, VCEN_IF, "SE"); } // TODO: See if ND0 can be placed in the JSON expanded.replace(idx, 3, fc.substr(0, 4) + ".ND0." + se); } else { idx = expanded.find("mts"); if (idx != string::npos) { string mt{}; string se{}; if (isSystemVpd) { const auto& mtData = vpdMap.at("VSYS").at("TM"); const auto& seData = vpdMap.at("VSYS").at("SE"); mt = string(mtData.data(), mtData.size()); se = string(seData.data(), seData.size()); } else { mt = readBusProperty(SYSTEM_OBJECT, VSYS_IF, "TM"); se = readBusProperty(SYSTEM_OBJECT, VSYS_IF, "SE"); } replace(mt.begin(), mt.end(), '-', '.'); expanded.replace(idx, 3, mt + "." + se); } } } catch (exception& e) { cerr << "Failed to expand location code with exception: " << e.what() << "\n"; } return expanded; } /** * @brief Populate FRU specific interfaces. * * This is a common method which handles both * ipz and keyword specific interfaces thus, * reducing the code redundancy. * @param[in] map - Reference to the innermost keyword-value map. * @param[in] preIntrStr - Reference to the interface string. * @param[out] interfaces - Reference to interface map. */ template static void populateFruSpecificInterfaces(const T& map, const string& preIntrStr, inventory::InterfaceMap& interfaces) { inventory::PropertyMap prop; for (const auto& kwVal : map) { vector vec(kwVal.second.begin(), kwVal.second.end()); auto kw = kwVal.first; if (kw[0] == '#') { kw = string("PD_") + kw[1]; } else if (isdigit(kw[0])) { kw = string("N_") + kw; } prop.emplace(move(kw), move(vec)); } interfaces.emplace(preIntrStr, move(prop)); } /** * @brief Populate Interfaces. * * This method populates common and extra interfaces to dbus. * @param[in] js - json object * @param[out] interfaces - Reference to interface map * @param[in] vpdMap - Reference to the parsed vpd map. * @param[in] isSystemVpd - Denotes whether we are collecting the system VPD. */ template static void populateInterfaces(const nlohmann::json& js, inventory::InterfaceMap& interfaces, const T& vpdMap, bool isSystemVpd) { for (const auto& ifs : js.items()) { string inf = ifs.key(); inventory::PropertyMap props; for (const auto& itr : ifs.value().items()) { const string& busProp = itr.key(); if (itr.value().is_boolean()) { props.emplace(busProp, itr.value().get()); } else if (itr.value().is_string()) { if constexpr (is_same::value) { if (busProp == "LocationCode" && inf == IBM_LOCATION_CODE_INF) { // TODO deprecate the com.ibm interface later auto prop = expandLocationCode( itr.value().get(), vpdMap, isSystemVpd); props.emplace(busProp, prop); interfaces.emplace(XYZ_LOCATION_CODE_INF, props); } else { props.emplace(busProp, itr.value().get()); } } else { props.emplace(busProp, itr.value().get()); } } else if (itr.value().is_object()) { const string& rec = itr.value().value("recordName", ""); const string& kw = itr.value().value("keywordName", ""); const string& encoding = itr.value().value("encoding", ""); if constexpr (is_same::value) { if (!rec.empty() && !kw.empty() && vpdMap.count(rec) && vpdMap.at(rec).count(kw)) { auto encoded = encodeKeyword(vpdMap.at(rec).at(kw), encoding); props.emplace(busProp, encoded); } } else if constexpr (is_same::value) { if (!kw.empty() && vpdMap.count(kw)) { auto prop = string(vpdMap.at(kw).begin(), vpdMap.at(kw).end()); auto encoded = encodeKeyword(prop, encoding); props.emplace(busProp, encoded); } } } } interfaces.emplace(inf, move(props)); } } static Binary getVpdDataInVector(const nlohmann::json& js, const string& file) { uint32_t offset = 0; // check if offset present? for (const auto& item : js["frus"][file]) { if (item.find("offset") != item.end()) { offset = item["offset"]; } } // TODO: Figure out a better way to get max possible VPD size. Binary vpdVector; vpdVector.resize(65504); ifstream vpdFile; vpdFile.open(file, ios::binary); vpdFile.seekg(offset, ios_base::cur); vpdFile.read(reinterpret_cast(&vpdVector[0]), 65504); vpdVector.resize(vpdFile.gcount()); return vpdVector; } /** This API will be called at the end of VPD collection to perform any post * actions. * * @param[in] json - json object * @param[in] file - eeprom file path */ static void postFailAction(const nlohmann::json& json, const string& file) { if ((json["frus"][file].at(0)).find("postActionFail") == json["frus"][file].at(0).end()) { return; } uint8_t pinValue = 0; string pinName; for (const auto& postAction : (json["frus"][file].at(0))["postActionFail"].items()) { if (postAction.key() == "pin") { pinName = postAction.value(); } else if (postAction.key() == "value") { // Get the value to set pinValue = postAction.value(); } } cout << "Setting GPIO: " << pinName << " to " << (int)pinValue << endl; try { gpiod::line outputLine = gpiod::find_line(pinName); if (!outputLine) { cout << "Couldn't find output line:" << pinName << " on GPIO. Skipping...\n"; return; } outputLine.request( {"Disable line", ::gpiod::line_request::DIRECTION_OUTPUT, 0}, pinValue); } catch (system_error&) { cerr << "Failed to set post-action GPIO" << endl; } } /** Performs any pre-action needed to get the FRU setup for collection. * * @param[in] json - json object * @param[in] file - eeprom file path */ static void preAction(const nlohmann::json& json, const string& file) { if ((json["frus"][file].at(0)).find("preAction") == json["frus"][file].at(0).end()) { return; } uint8_t pinValue = 0; string pinName; for (const auto& postAction : (json["frus"][file].at(0))["preAction"].items()) { if (postAction.key() == "pin") { pinName = postAction.value(); } else if (postAction.key() == "value") { // Get the value to set pinValue = postAction.value(); } } cout << "Setting GPIO: " << pinName << " to " << (int)pinValue << endl; try { gpiod::line outputLine = gpiod::find_line(pinName); if (!outputLine) { cout << "Couldn't find output line:" << pinName << " on GPIO. Skipping...\n"; return; } outputLine.request( {"FRU pre-action", ::gpiod::line_request::DIRECTION_OUTPUT, 0}, pinValue); } catch (system_error&) { cerr << "Failed to set pre-action GPIO" << endl; return; } // Now bind the device string bind = json["frus"][file].at(0).value("bind", ""); cout << "Binding device " << bind << endl; string bindCmd = string("echo \"") + bind + string("\" > /sys/bus/i2c/drivers/at24/bind"); cout << bindCmd << endl; executeCmd(bindCmd); // Check if device showed up (test for file) if (!fs::exists(file)) { cout << "EEPROM " << file << " does not exist. Take failure action" << endl; // If not, then take failure postAction postFailAction(json, file); } } /** * @brief Prime the Inventory * Prime the inventory by populating only the location code, * type interface and the inventory object for the frus * which are not system vpd fru. * * @param[in] jsObject - Reference to vpd inventory json object * @param[in] vpdMap - Reference to the parsed vpd map * * @returns Map of items in extraInterface. */ template inventory::ObjectMap primeInventory(const nlohmann::json& jsObject, const T& vpdMap) { inventory::ObjectMap objects; for (auto& itemFRUS : jsObject["frus"].items()) { // Take pre actions preAction(jsObject, itemFRUS.key()); for (auto& itemEEPROM : itemFRUS.value()) { inventory::InterfaceMap interfaces; auto isSystemVpd = itemEEPROM.value("isSystemVpd", false); inventory::Object object(itemEEPROM.at("inventoryPath")); if (!isSystemVpd && !itemEEPROM.value("noprime", false)) { inventory::PropertyMap presProp; presProp.emplace("Present", false); interfaces.emplace("xyz.openbmc_project.Inventory.Item", move(presProp)); if (itemEEPROM.find("extraInterfaces") != itemEEPROM.end()) { for (const auto& eI : itemEEPROM["extraInterfaces"].items()) { inventory::PropertyMap props; if (eI.key() == IBM_LOCATION_CODE_INF) { if constexpr (std::is_same::value) { for (auto& lC : eI.value().items()) { auto propVal = expandLocationCode( lC.value().get(), vpdMap, true); props.emplace(move(lC.key()), move(propVal)); interfaces.emplace(move(eI.key()), move(props)); } } } else if (eI.key().find("Inventory.Item.") != string::npos) { interfaces.emplace(move(eI.key()), move(props)); } } } objects.emplace(move(object), move(interfaces)); } } } return objects; } /** * @brief This API executes command to set environment variable * And then reboot the system * @param[in] key -env key to set new value * @param[in] value -value to set. */ void setEnvAndReboot(const string& key, const string& value) { // set env and reboot and break. executeCmd("/sbin/fw_setenv", key, value); log("Rebooting BMC to pick up new device tree"); // make dbus call to reboot auto bus = sdbusplus::bus::new_default_system(); auto method = bus.new_method_call( "org.freedesktop.systemd1", "/org/freedesktop/systemd1", "org.freedesktop.systemd1.Manager", "Reboot"); bus.call_noreply(method); } /* * @brief This API checks for env var fitconfig. * If not initialised OR updated as per the current system type, * update this env var and reboot the system. * * @param[in] systemType IM kwd in vpd tells about which system type it is. * */ void setDevTreeEnv(const string& systemType) { string newDeviceTree; if (deviceTreeSystemTypeMap.find(systemType) != deviceTreeSystemTypeMap.end()) { newDeviceTree = deviceTreeSystemTypeMap.at(systemType); } string readVarValue; bool envVarFound = false; vector output = executeCmd("/sbin/fw_printenv"); for (const auto& entry : output) { size_t pos = entry.find("="); string key = entry.substr(0, pos); if (key != "fitconfig") { continue; } envVarFound = true; if (pos + 1 < entry.size()) { readVarValue = entry.substr(pos + 1); if (readVarValue.find(newDeviceTree) != string::npos) { // fitconfig is Updated. No action needed break; } } // set env and reboot and break. setEnvAndReboot(key, newDeviceTree); exit(0); } // check If env var Not found if (!envVarFound) { setEnvAndReboot("fitconfig", newDeviceTree); } } /** * @brief API to call VPD manager to write VPD to EEPROM. * @param[in] Object path. * @param[in] record to be updated. * @param[in] keyword to be updated. * @param[in] keyword data to be updated */ void updateHardware(const string& objectName, const string& recName, const string& kwdName, const Binary& data) { try { auto bus = sdbusplus::bus::new_default(); auto properties = bus.new_method_call(BUSNAME, OBJPATH, IFACE, "WriteKeyword"); properties.append( static_cast(objectName)); properties.append(recName); properties.append(kwdName); properties.append(data); bus.call(properties); } catch (const sdbusplus::exception::SdBusError& e) { std::string what = "VPDManager WriteKeyword api failed for inventory path " + objectName; what += " record " + recName; what += " keyword " + kwdName; what += " with bus error = " + std::string(e.what()); // map to hold additional data in case of logging pel PelAdditionalData additionalData{}; additionalData.emplace("CALLOUT_INVENTORY_PATH", objectName); additionalData.emplace("DESCRIPTION", what); createPEL(additionalData, PelSeverity::WARNING, errIntfForBusFailure); } } /** * @brief API to check if we need to restore system VPD * This functionality is only applicable for IPZ VPD data. * @param[in] vpdMap - IPZ vpd map * @param[in] objectPath - Object path for the FRU * @return EEPROMs with records and keywords updated at standby */ std::vector restoreSystemVPD(Parsed& vpdMap, const string& objectPath) { // the list of keywords for VSYS record is as per the S0 system. Should be // updated for another type of systems static std::unordered_map> svpdKwdMap{ {"VSYS", {"BR", "TM", "SE", "SU", "RB"}}, {"VCEN", {"FC", "SE"}}, {"LXR0", {"LX"}}}; // vector to hold all the EEPROMs updated at standby std::vector updatedEeproms = {}; for (const auto& systemRecKwdPair : svpdKwdMap) { auto it = vpdMap.find(systemRecKwdPair.first); // check if record is found in map we got by parser if (it != vpdMap.end()) { const auto& kwdListForRecord = systemRecKwdPair.second; for (const auto& keyword : kwdListForRecord) { DbusPropertyMap& kwdValMap = it->second; auto iterator = kwdValMap.find(keyword); if (iterator != kwdValMap.end()) { string& kwdValue = iterator->second; // check bus data const string& recordName = systemRecKwdPair.first; const string& busValue = readBusProperty( objectPath, ipzVpdInf + recordName, keyword); if (busValue.find_first_not_of(' ') != string::npos) { if (kwdValue.find_first_not_of(' ') != string::npos) { // both the data are present, check for mismatch if (busValue != kwdValue) { string errMsg = "VPD data mismatch on cache " "and hardware for record: "; errMsg += (*it).first; errMsg += " and keyword: "; errMsg += keyword; // data mismatch PelAdditionalData additionalData; additionalData.emplace("CALLOUT_INVENTORY_PATH", objectPath); additionalData.emplace("DESCRIPTION", errMsg); createPEL(additionalData, PelSeverity::WARNING, errIntfForInvalidVPD); } } else { // implies hardware data is blank // update the map Binary busData(busValue.begin(), busValue.end()); updatedEeproms.push_back(std::make_tuple( objectPath, recordName, keyword, busData)); } // update the map as well, so that cache data is not // updated as blank while populating VPD map on Dbus in // populateDBus Api kwdValue = busValue; continue; } else if (kwdValue.find_first_not_of(' ') == string::npos) { string errMsg = "VPD is blank on both cache and " "hardware for record: "; errMsg += (*it).first; errMsg += " and keyword: "; errMsg += keyword; errMsg += ". SSR need to update hardware VPD."; // both the data are blanks, log PEL PelAdditionalData additionalData; additionalData.emplace("CALLOUT_INVENTORY_PATH", objectPath); additionalData.emplace("DESCRIPTION", errMsg); // log PEL TODO: Block IPL createPEL(additionalData, PelSeverity::ERROR, errIntfForBlankSystemVPD); continue; } } } } } return updatedEeproms; } /** * @brief Populate Dbus. * This method invokes all the populateInterface functions * and notifies PIM about dbus object. * @param[in] vpdMap - Either IPZ vpd map or Keyword vpd map based on the * input. * @param[in] js - Inventory json object * @param[in] filePath - Path of the vpd file * @param[in] preIntrStr - Interface string */ template static void populateDbus(T& vpdMap, nlohmann::json& js, const string& filePath) { inventory::InterfaceMap interfaces; inventory::ObjectMap objects; inventory::PropertyMap prop; // map to hold all the keywords whose value has been changed at standby vector updatedEeproms = {}; bool isSystemVpd = false; for (const auto& item : js["frus"][filePath]) { const auto& objectPath = item["inventoryPath"]; sdbusplus::message::object_path object(objectPath); isSystemVpd = item.value("isSystemVpd", false); // Populate the VPD keywords and the common interfaces only if we // are asked to inherit that data from the VPD, else only add the // extraInterfaces. if (item.value("inherit", true)) { if constexpr (is_same::value) { if (isSystemVpd) { std::vector interfaces = { motherBoardInterface}; // call mapper to check for object path creation MapperResponse subTree = getObjectSubtreeForInterfaces(pimPath, 0, interfaces); // Attempt system VPD restore if we have a motherboard // object in the inventory. if ((subTree.size() != 0) && (subTree.find(pimPath + std::string(objectPath)) != subTree.end())) { updatedEeproms = restoreSystemVPD(vpdMap, objectPath); } else { log("No object path found"); } } // Each record in the VPD becomes an interface and all // keyword within the record are properties under that // interface. for (const auto& record : vpdMap) { populateFruSpecificInterfaces( record.second, ipzVpdInf + record.first, interfaces); } } else if constexpr (is_same::value) { populateFruSpecificInterfaces(vpdMap, kwdVpdInf, interfaces); } if (js.find("commonInterfaces") != js.end()) { populateInterfaces(js["commonInterfaces"], interfaces, vpdMap, isSystemVpd); } } else { // Check if we have been asked to inherit specific record(s) if constexpr (is_same::value) { if (item.find("copyRecords") != item.end()) { for (const auto& record : item["copyRecords"]) { const string& recordName = record; if (vpdMap.find(recordName) != vpdMap.end()) { populateFruSpecificInterfaces( vpdMap.at(recordName), ipzVpdInf + recordName, interfaces); } } } } } if (item.value("inheritEI", true)) { // Populate interfaces and properties that are common to every FRU // and additional interface that might be defined on a per-FRU // basis. if (item.find("extraInterfaces") != item.end()) { populateInterfaces(item["extraInterfaces"], interfaces, vpdMap, isSystemVpd); } } objects.emplace(move(object), move(interfaces)); } if (isSystemVpd) { string systemJsonName{}; if constexpr (is_same::value) { // pick the right system json systemJsonName = getSystemsJson(vpdMap); } fs::path target = systemJsonName; fs::path link = INVENTORY_JSON_SYM_LINK; // Create the directory for hosting the symlink fs::create_directories(VPD_FILES_PATH); // unlink the symlink previously created (if any) remove(INVENTORY_JSON_SYM_LINK); // create a new symlink based on the system fs::create_symlink(target, link); // Reloading the json ifstream inventoryJson(link); auto js = json::parse(inventoryJson); inventoryJson.close(); inventory::ObjectMap primeObject = primeInventory(js, vpdMap); objects.insert(primeObject.begin(), primeObject.end()); // if system VPD has been restored at standby, update the EEPROM for (const auto& item : updatedEeproms) { updateHardware(get<0>(item), get<1>(item), get<2>(item), get<3>(item)); } // set the U-boot environment variable for device-tree if constexpr (is_same::value) { const string imKeyword = getIM(vpdMap); const string hwKeyword = getHW(vpdMap); string systemType = imKeyword; // check If system has constraint then append HW version to it. ifstream sysJson(SYSTEM_JSON); if (!sysJson) { throw((VpdJsonException("Failed to access Json path", SYSTEM_JSON))); } try { auto systemJson = json::parse(sysJson); if (systemJson["system"].find(imKeyword) != systemJson["system"].end()) { if (systemJson["system"][imKeyword].find("constraint") != systemJson["system"][imKeyword].end()) { systemType += "_" + hwKeyword; } } } catch (json::parse_error& ex) { throw((VpdJsonException("System Json parsing failed", SYSTEM_JSON))); } setDevTreeEnv(systemType); } } // Notify PIM common::utility::callPIM(move(objects)); } int main(int argc, char** argv) { int rc = 0; json js{}; // map to hold additional data in case of logging pel PelAdditionalData additionalData{}; // this is needed to hold base fru inventory path in case there is ECC or // vpd exception while parsing the file std::string baseFruInventoryPath = {}; // severity for PEL PelSeverity pelSeverity = PelSeverity::WARNING; try { string file{}; App app{"ibm-read-vpd - App to read IPZ format VPD, parse it and store " "in DBUS"}; app.add_option("-f, --file", file, "File containing VPD (IPZ/KEYWORD)") ->required(); CLI11_PARSE(app, argc, argv); cout << "Parser launched with file: " << file << "\n"; // PEL severity should be ERROR in case of any system VPD failure if (file == systemVpdFilePath) { pelSeverity = PelSeverity::ERROR; } auto jsonToParse = INVENTORY_JSON_DEFAULT; // If the symlink exists, it means it has been setup for us, switch the // path if (fs::exists(INVENTORY_JSON_SYM_LINK)) { jsonToParse = INVENTORY_JSON_SYM_LINK; } // Make sure that the file path we get is for a supported EEPROM ifstream inventoryJson(jsonToParse); if (!inventoryJson) { throw(VpdJsonException("Failed to access Json path", jsonToParse)); } try { js = json::parse(inventoryJson); } catch (json::parse_error& ex) { throw(VpdJsonException("Json parsing failed", jsonToParse)); } // Do we have the mandatory "frus" section? if (js.find("frus") == js.end()) { throw(VpdJsonException("FRUs section not found in JSON", jsonToParse)); } // Check if it's a udev path - patterned as(/ahb/ahb:apb/ahb:apb:bus@) if (file.find("/ahb:apb") != string::npos) { // Translate udev path to a generic /sys/bus/.. file path. udevToGenericPath(file); cout << "Path after translation: " << file << "\n"; if ((js["frus"].find(file) != js["frus"].end()) && (js["frus"][file].at(0).value("isSystemVpd", false))) { return 0; } } if (file.empty()) { cerr << "The EEPROM path <" << file << "> is not valid."; return 0; } if (js["frus"].find(file) == js["frus"].end()) { cout << "Device path not in JSON, ignoring" << endl; return 0; } if (!fs::exists(file)) { cout << "Device path: " << file << " does not exist. Spurious udev event? Exiting." << endl; return 0; } baseFruInventoryPath = js["frus"][file][0]["inventoryPath"]; // Check if we can read the VPD file based on the power state if (js["frus"][file].at(0).value("powerOffOnly", false)) { if ("xyz.openbmc_project.State.Chassis.PowerState.On" == getPowerState()) { cout << "This VPD cannot be read when power is ON" << endl; return 0; } } try { Binary vpdVector = getVpdDataInVector(js, file); ParserInterface* parser = ParserFactory::getParser(vpdVector); variant parseResult; parseResult = parser->parse(); if (auto pVal = get_if(&parseResult)) { populateDbus(pVal->getVpdMap(), js, file); } else if (auto pVal = get_if(&parseResult)) { populateDbus(*pVal, js, file); } // release the parser object ParserFactory::freeParser(parser); } catch (exception& e) { postFailAction(js, file); throw; } } catch (const VpdJsonException& ex) { additionalData.emplace("JSON_PATH", ex.getJsonPath()); additionalData.emplace("DESCRIPTION", ex.what()); createPEL(additionalData, pelSeverity, errIntfForJsonFailure); cerr << ex.what() << "\n"; rc = -1; } catch (const VpdEccException& ex) { additionalData.emplace("DESCRIPTION", "ECC check failed"); additionalData.emplace("CALLOUT_INVENTORY_PATH", INVENTORY_PATH + baseFruInventoryPath); createPEL(additionalData, pelSeverity, errIntfForEccCheckFail); cerr << ex.what() << "\n"; rc = -1; } catch (const VpdDataException& ex) { additionalData.emplace("DESCRIPTION", "Invalid VPD data"); additionalData.emplace("CALLOUT_INVENTORY_PATH", INVENTORY_PATH + baseFruInventoryPath); createPEL(additionalData, pelSeverity, errIntfForInvalidVPD); cerr << ex.what() << "\n"; rc = -1; } catch (exception& e) { cerr << e.what() << "\n"; rc = -1; } return rc; }