/** * Copyright © 2019 IBM 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. */ #include "manager.hpp" #include "additional_data.hpp" #include "elog_serialize.hpp" #include "json_utils.hpp" #include "pel.hpp" #include "pel_entry.hpp" #include "service_indicators.hpp" #include "severity.hpp" #include #include #include #include #include #include #include #include #include namespace openpower { namespace pels { using namespace phosphor::logging; namespace fs = std::filesystem; namespace rg = openpower::pels::message; namespace common_error = sdbusplus::xyz::openbmc_project::Common::Error; using Create = sdbusplus::server::xyz::openbmc_project::logging::Create; namespace additional_data { constexpr auto rawPEL = "RAWPEL"; constexpr auto esel = "ESEL"; constexpr auto error = "ERROR_NAME"; } // namespace additional_data constexpr auto defaultLogMessage = "xyz.openbmc_project.Logging.Error.Default"; constexpr uint32_t bmcThermalCompID = 0x2700; constexpr uint32_t bmcFansCompID = 0x2800; Manager::~Manager() { if (_pelFileDeleteFD != -1) { if (_pelFileDeleteWatchFD != -1) { inotify_rm_watch(_pelFileDeleteFD, _pelFileDeleteWatchFD); } close(_pelFileDeleteFD); } } void Manager::create(const std::string& message, uint32_t obmcLogID, uint64_t timestamp, Entry::Level severity, const std::vector& additionalData, const std::vector& associations, const FFDCEntries& ffdc) { AdditionalData ad{additionalData}; // If a PEL was passed in via a filename or in an ESEL, // use that. Otherwise, create one. auto rawPelPath = ad.getValue(additional_data::rawPEL); if (rawPelPath) { addRawPEL(*rawPelPath, obmcLogID); } else { auto esel = ad.getValue(additional_data::esel); if (esel) { addESELPEL(*esel, obmcLogID); } else { createPEL(message, obmcLogID, timestamp, severity, additionalData, associations, ffdc); } } setEntryPath(obmcLogID); setServiceProviderNotifyFlag(obmcLogID); } void Manager::addRawPEL(const std::string& rawPelPath, uint32_t obmcLogID) { if (fs::exists(rawPelPath)) { std::ifstream file(rawPelPath, std::ios::in | std::ios::binary); auto data = std::vector(std::istreambuf_iterator(file), std::istreambuf_iterator()); if (file.fail()) { lg2::error( "Filesystem error reading a raw PEL. File = {FILE}, obmcLogID = {LOGID}", "FILE", rawPelPath, "LOGID", obmcLogID); // TODO, Decide what to do here. Maybe nothing. return; } file.close(); addPEL(data, obmcLogID); std::error_code ec; fs::remove(rawPelPath, ec); } else { lg2::error( "Raw PEL file from BMC event log does not exit. File = {FILE}, obmcLogID = {LOGID}", "FILE", rawPelPath, "LOGID", obmcLogID); } } void Manager::addPEL(std::vector& pelData, uint32_t obmcLogID) { auto pel = std::make_unique(pelData, obmcLogID); if (pel->valid()) { // PELs created by others still need this field set by us. pel->setCommitTime(); // Assign Id other than to Hostbot PEL if ((pel->privateHeader()).creatorID() != static_cast(CreatorID::hostboot)) { pel->assignID(); } else { const Repository::LogID id{Repository::LogID::Pel(pel->id())}; auto result = _repo.hasPEL(id); if (result) { lg2::warning( "Duplicate HostBoot PEL ID {ID} found, moving it to archive folder", "ID", lg2::hex, pel->id()); _repo.archivePEL(*pel); // No need to keep around the openBMC event log entry scheduleObmcLogDelete(obmcLogID); return; } } // Update System Info to Extended User Data pel->updateSysInfoInExtendedUserDataSection(*_dataIface); // Check for severity 0x51 and update boot progress SRC updateProgressSRC(pel); try { lg2::debug("Adding external PEL {ID} (BMC ID {BMCID}) to repo", "ID", lg2::hex, pel->id(), "BMCID", obmcLogID); _repo.add(pel); if (_repo.sizeWarning()) { scheduleRepoPrune(); } // Activate any resulting service indicators if necessary auto policy = service_indicators::getPolicy(*_dataIface); policy->activate(*pel); } catch (const std::exception& e) { // Probably a full or r/o filesystem, not much we can do. lg2::error("Unable to add PEL {ID} to Repository", "ID", lg2::hex, pel->id()); } updateEventId(pel); updateResolution(*pel); serializeLogEntry(obmcLogID); createPELEntry(obmcLogID); // Check if firmware should quiesce system due to error checkPelAndQuiesce(pel); } else { lg2::error("Invalid PEL received from the host. BMC ID = {ID}", "ID", obmcLogID); AdditionalData ad; ad.add("PLID", getNumberString("0x%08X", pel->plid())); ad.add("OBMC_LOG_ID", std::to_string(obmcLogID)); ad.add("PEL_SIZE", std::to_string(pelData.size())); std::string asciiString; auto src = pel->primarySRC(); if (src) { asciiString = (*src)->asciiString(); } ad.add("SRC", asciiString); _eventLogger.log("org.open_power.Logging.Error.BadHostPEL", Entry::Level::Error, ad); // Save it to a file for debug in the lab. Just keep the latest. // Not adding it to the PEL because it could already be max size // and don't want to truncate an already invalid PEL. std::ofstream pelFile{getPELRepoPath() / "badPEL"}; pelFile.write(reinterpret_cast(pelData.data()), pelData.size()); // No need to keep around the openBMC event log entry scheduleObmcLogDelete(obmcLogID); } } void Manager::addESELPEL(const std::string& esel, uint32_t obmcLogID) { std::vector data; lg2::debug("Adding PEL from ESEL. BMC ID = {ID}", "ID", obmcLogID); try { data = std::move(eselToRawData(esel)); } catch (const std::exception& e) { // Try to add it below anyway, so it follows the usual bad data path. lg2::error("Problems converting ESEL string to a byte vector"); } addPEL(data, obmcLogID); } std::vector Manager::eselToRawData(const std::string& esel) { std::vector data; std::string byteString; // As the eSEL string looks like: "50 48 00 ab ..." there are 3 // characters per raw byte, and since the actual PEL data starts // at the 16th byte, the code will grab the PEL data starting at // offset 48 in the string. static constexpr size_t pelStart = 16 * 3; if (esel.size() <= pelStart) { lg2::error("ESEL data too short, length = {LEN}", "LEN", esel.size()); throw std::length_error("ESEL data too short"); } for (size_t i = pelStart; i < esel.size(); i += 3) { if (i + 1 < esel.size()) { byteString = esel.substr(i, 2); data.push_back(std::stoi(byteString, nullptr, 16)); } else { lg2::error("ESEL data too short, length = {LEN}", "LEN", esel.size()); throw std::length_error("ESEL data too short"); } } return data; } void Manager::erase(uint32_t obmcLogID) { Repository::LogID id{Repository::LogID::Obmc(obmcLogID)}; auto path = std::string(OBJ_ENTRY) + '/' + std::to_string(obmcLogID); _pelEntries.erase(path); _repo.remove(id); } void Manager::getLogIDWithHwIsolation(std::vector& idsWithHwIsoEntry) { idsWithHwIsoEntry = _dataIface->getLogIDWithHwIsolation(); } bool Manager::isDeleteProhibited(uint32_t obmcLogID) { auto entryPath{std::string(OBJ_ENTRY) + '/' + std::to_string(obmcLogID)}; auto entry = _pelEntries.find(entryPath); if (entry != _pelEntries.end()) { if (entry->second->guard()) { auto hwIsolationAssocPaths = _dataIface->getAssociatedPaths( entryPath += "/isolated_hw_entry", "/", 0, {"xyz.openbmc_project.HardwareIsolation.Entry"}); if (!hwIsolationAssocPaths.empty()) { return true; } } } return false; } PelFFDC Manager::convertToPelFFDC(const FFDCEntries& ffdc) { PelFFDC pelFFDC; std::for_each(ffdc.begin(), ffdc.end(), [&pelFFDC](const auto& f) { PelFFDCfile pf; pf.subType = std::get(f); pf.version = std::get(f); pf.fd = std::get(f); switch (std::get(f)) { case Create::FFDCFormat::JSON: pf.format = UserDataFormat::json; break; case Create::FFDCFormat::CBOR: pf.format = UserDataFormat::cbor; break; case Create::FFDCFormat::Text: pf.format = UserDataFormat::text; break; case Create::FFDCFormat::Custom: pf.format = UserDataFormat::custom; break; } pelFFDC.push_back(pf); }); return pelFFDC; } void Manager::createPEL( const std::string& message, uint32_t obmcLogID, uint64_t timestamp, phosphor::logging::Entry::Level severity, const std::vector& additionalData, const std::vector& /*associations*/, const FFDCEntries& ffdc) { auto entry = _registry.lookup(message, rg::LookupType::name); auto pelFFDC = convertToPelFFDC(ffdc); AdditionalData ad{additionalData}; std::string msg; if (!entry) { // Instead, get the default entry that means there is no // other matching entry. This error will still use the // AdditionalData values of the original error, and this // code will add the error message value that wasn't found // to this AD. This way, there will at least be a PEL, // possibly with callouts, to allow users to debug the // issue that caused the error even without its own PEL. lg2::error("Event not found in PEL message registry: {MSG}", "MSG", message); entry = _registry.lookup(defaultLogMessage, rg::LookupType::name); if (!entry) { lg2::error("Default event not found in PEL message registry"); return; } ad.add(additional_data::error, message); } auto pel = std::make_unique( *entry, obmcLogID, timestamp, severity, ad, pelFFDC, *_dataIface, *_journal); _repo.add(pel); if (_repo.sizeWarning()) { scheduleRepoPrune(); } auto src = pel->primarySRC(); if (src) { auto asciiString = (*src)->asciiString(); while (asciiString.back() == ' ') { asciiString.pop_back(); } lg2::info("Created PEL {ID} (BMC ID {BMCID}) with SRC {SRC}", "ID", lg2::hex, pel->id(), "BMCID", pel->obmcLogID(), "SRC", asciiString); } // Check for severity 0x51 and update boot progress SRC updateProgressSRC(pel); // Activate any resulting service indicators if necessary auto policy = service_indicators::getPolicy(*_dataIface); policy->activate(*pel); updateDBusSeverity(*pel); updateEventId(pel); updateResolution(*pel); serializeLogEntry(obmcLogID); createPELEntry(obmcLogID); // Check if firmware should quiesce system due to error checkPelAndQuiesce(pel); } sdbusplus::message::unix_fd Manager::getPEL(uint32_t pelID) { Repository::LogID id{Repository::LogID::Pel(pelID)}; std::optional fd; lg2::debug("getPEL {ID}", "ID", lg2::hex, pelID); try { fd = _repo.getPELFD(id); } catch (const std::exception& e) { throw common_error::InternalFailure(); } if (!fd) { throw common_error::InvalidArgument(); } scheduleFDClose(*fd); return *fd; } void Manager::scheduleFDClose(int fd) { _fdCloserEventSource = std::make_unique( _event, std::bind(std::mem_fn(&Manager::closeFD), this, fd, std::placeholders::_1)); } void Manager::closeFD(int fd, sdeventplus::source::EventBase& /*source*/) { close(fd); _fdCloserEventSource.reset(); } std::vector Manager::getPELFromOBMCID(uint32_t obmcLogID) { Repository::LogID id{Repository::LogID::Obmc(obmcLogID)}; std::optional> data; lg2::debug("getPELFromOBMCID {BMCID}", "BMCID", obmcLogID); try { data = _repo.getPELData(id); } catch (const std::exception& e) { throw common_error::InternalFailure(); } if (!data) { throw common_error::InvalidArgument(); } return *data; } void Manager::hostAck(uint32_t pelID) { Repository::LogID id{Repository::LogID::Pel(pelID)}; lg2::debug("HostHack {ID}", "ID", lg2::hex, pelID); if (!_repo.hasPEL(id)) { throw common_error::InvalidArgument(); } if (_hostNotifier) { _hostNotifier->ackPEL(pelID); } } void Manager::hostReject(uint32_t pelID, RejectionReason reason) { Repository::LogID id{Repository::LogID::Pel(pelID)}; lg2::debug("HostReject {ID}, reason = {REASON}", "ID", lg2::hex, pelID, "REASON", reason); if (!_repo.hasPEL(id)) { throw common_error::InvalidArgument(); } if (reason == RejectionReason::BadPEL) { AdditionalData data; data.add("BAD_ID", getNumberString("0x%08X", pelID)); _eventLogger.log("org.open_power.Logging.Error.SentBadPELToHost", Entry::Level::Informational, data); if (_hostNotifier) { _hostNotifier->setBadPEL(pelID); } } else if ((reason == RejectionReason::HostFull) && _hostNotifier) { _hostNotifier->setHostFull(pelID); } } void Manager::scheduleRepoPrune() { _repoPrunerEventSource = std::make_unique( _event, std::bind(std::mem_fn(&Manager::pruneRepo), this, std::placeholders::_1)); } void Manager::pruneRepo(sdeventplus::source::EventBase& /*source*/) { auto idsWithHwIsoEntry = _dataIface->getLogIDWithHwIsolation(); auto idsToDelete = _repo.prune(idsWithHwIsoEntry); // Remove the OpenBMC event logs for the PELs that were just removed. std::for_each(idsToDelete.begin(), idsToDelete.end(), [this](auto id) { this->_logManager.erase(id); }); _repoPrunerEventSource.reset(); } void Manager::setupPELDeleteWatch() { _pelFileDeleteFD = inotify_init1(IN_NONBLOCK); if (-1 == _pelFileDeleteFD) { auto e = errno; lg2::error("inotify_init1 failed with errno {ERRNO}", "ERRNO", e); abort(); } _pelFileDeleteWatchFD = inotify_add_watch( _pelFileDeleteFD, _repo.repoPath().c_str(), IN_DELETE); if (-1 == _pelFileDeleteWatchFD) { auto e = errno; lg2::error("inotify_add_watch failed with errno {ERRNO}", "ERRNO", e); abort(); } _pelFileDeleteEventSource = std::make_unique( _event, _pelFileDeleteFD, EPOLLIN, std::bind(std::mem_fn(&Manager::pelFileDeleted), this, std::placeholders::_1, std::placeholders::_2, std::placeholders::_3)); } void Manager::pelFileDeleted(sdeventplus::source::IO& /*io*/, int /*fd*/, uint32_t revents) { if (!(revents & EPOLLIN)) { return; } // An event for 1 PEL uses 48B. When all PELs are deleted at once, // as many events as there is room for can be handled in one callback. // A size of 2000 will allow 41 to be processed, with additional // callbacks being needed to process the remaining ones. std::array data{}; auto bytesRead = read(_pelFileDeleteFD, data.data(), data.size()); if (bytesRead < 0) { auto e = errno; lg2::error("Failed reading data from inotify event, errno = {ERRNO}", "ERRNO", e); abort(); } auto offset = 0; while (offset < bytesRead) { auto event = reinterpret_cast(&data[offset]); if (event->mask & IN_DELETE) { std::string filename{event->name}; // Get the PEL ID from the filename and tell the // repo it's been removed, and then delete the BMC // event log if it's there. auto pos = filename.find_first_of('_'); if (pos != std::string::npos) { try { auto idString = filename.substr(pos + 1); auto pelID = std::stoul(idString, nullptr, 16); Repository::LogID id{Repository::LogID::Pel(pelID)}; auto removedLogID = _repo.remove(id); if (removedLogID) { _logManager.erase(removedLogID->obmcID.id); } } catch (const std::exception& e) { lg2::info("Could not find PEL ID from its filename {NAME}", "NAME", filename); } } } offset += offsetof(inotify_event, name) + event->len; } } std::tuple Manager::createPELWithFFDCFiles( std::string message, Entry::Level severity, std::map additionalData, std::vector> fFDC) { _logManager.create(message, severity, additionalData, fFDC); return {_logManager.lastEntryID(), _repo.lastPelID()}; } std::string Manager::getPELJSON(uint32_t obmcLogID) { // Throws InvalidArgument if not found auto pelID = getPELIdFromBMCLogId(obmcLogID); auto cmd = std::format("/usr/bin/peltool -i {:#x}", pelID); FILE* pipe = popen(cmd.c_str(), "r"); if (!pipe) { lg2::error("Error running cmd: {CMD}", "CMD", cmd); throw common_error::InternalFailure(); } std::string output; std::array buffer; while (fgets(buffer.data(), buffer.size(), pipe) != nullptr) { output.append(buffer.data()); } int rc = pclose(pipe); if (WEXITSTATUS(rc) != 0) { lg2::error("Error running cmd: {CMD}, rc = {RC}", "CMD", cmd, "RC", rc); throw common_error::InternalFailure(); } return output; } void Manager::checkPelAndQuiesce(std::unique_ptr& pel) { if ((pel->userHeader().severity() == static_cast(SeverityType::nonError)) || (pel->userHeader().severity() == static_cast(SeverityType::recovered))) { lg2::debug( "PEL severity informational or recovered. no quiesce needed"); return; } if (!_logManager.isQuiesceOnErrorEnabled()) { lg2::debug("QuiesceOnHwError not enabled, no quiesce needed"); return; } CreatorID creatorID{pel->privateHeader().creatorID()}; if ((creatorID != CreatorID::openBMC) && (creatorID != CreatorID::hostboot) && (creatorID != CreatorID::ioDrawer) && (creatorID != CreatorID::occ) && (creatorID != CreatorID::phyp)) { return; } // Now check if it has any type of callout if (pel->isHwCalloutPresent()) { lg2::info( "QuiesceOnHwError enabled, PEL severity not nonError or recovered, " "and callout is present"); _logManager.quiesceOnError(pel->obmcLogID()); } } std::string Manager::getEventId(const openpower::pels::PEL& pel) const { std::string str; auto src = pel.primarySRC(); if (src) { const auto& hexwords = (*src)->hexwordData(); std::string refcode = (*src)->asciiString(); size_t pos = refcode.find_last_not_of(0x20); if (pos != std::string::npos) { refcode.erase(pos + 1); } str = refcode; for (auto& value : hexwords) { str += " "; str += getNumberString("%08X", value); } } return sanitizeFieldForDBus(str); } void Manager::updateEventId(std::unique_ptr& pel) { std::string eventIdStr = getEventId(*pel); auto entryN = _logManager.entries.find(pel->obmcLogID()); if (entryN != _logManager.entries.end()) { entryN->second->eventId(eventIdStr, true); } } std::string Manager::sanitizeFieldForDBus(std::string field) { std::for_each(field.begin(), field.end(), [](char& ch) { if (((ch < ' ') || (ch > '~')) && (ch != '\n') && (ch != '\t')) { ch = ' '; } }); return field; } std::string Manager::getResolution(const openpower::pels::PEL& pel) const { std::string str; std::string resolution; auto src = pel.primarySRC(); if (src) { // First extract the callout pointer and then go through const auto& callouts = (*src)->callouts(); namespace pv = openpower::pels::pel_values; // All PELs dont have callout, check before parsing callout data if (callouts) { const auto& entries = callouts->callouts(); // Entry starts with index 1 uint8_t index = 1; for (auto& entry : entries) { resolution += std::to_string(index) + ". "; // Adding Location code to resolution if (!entry->locationCode().empty()) resolution += "Location Code: " + entry->locationCode() + ", "; if (entry->fruIdentity()) { // Get priority and set the resolution string str = pv::getValue(entry->priority(), pel_values::calloutPriorityValues, pel_values::registryNamePos); str[0] = toupper(str[0]); resolution += "Priority: " + str + ", "; if (entry->fruIdentity()->getPN().has_value()) { resolution += "PN: " + entry->fruIdentity()->getPN().value() + ", "; } if (entry->fruIdentity()->getSN().has_value()) { resolution += "SN: " + entry->fruIdentity()->getSN().value() + ", "; } if (entry->fruIdentity()->getCCIN().has_value()) { resolution += "CCIN: " + entry->fruIdentity()->getCCIN().value() + ", "; } // Add the maintenance procedure if (entry->fruIdentity()->getMaintProc().has_value()) { resolution += "Procedure: " + entry->fruIdentity()->getMaintProc().value() + ", "; } } resolution.resize(resolution.size() - 2); resolution += "\n"; index++; } } } return sanitizeFieldForDBus(resolution); } bool Manager::updateResolution(const openpower::pels::PEL& pel) { std::string callouts = getResolution(pel); auto entryN = _logManager.entries.find(pel.obmcLogID()); if (entryN != _logManager.entries.end()) { entryN->second->resolution(callouts, true); } return false; } void Manager::serializeLogEntry(uint32_t obmcLogID) { auto entryN = _logManager.entries.find(obmcLogID); if (entryN != _logManager.entries.end()) { serialize(*entryN->second); } } void Manager::updateDBusSeverity(const openpower::pels::PEL& pel) { // The final severity of the PEL may not agree with the // original severity of the D-Bus event log. Update the // D-Bus property to match in some cases. This is to // ensure there isn't a Critical or Warning Redfish event // log for an informational or recovered PEL (or vice versa). // This doesn't make an explicit call to serialize the new // event log property value because updateEventId() is called // right after this and will do it. auto sevType = static_cast(pel.userHeader().severity() & 0xF0); auto entryN = _logManager.entries.find(pel.obmcLogID()); if (entryN != _logManager.entries.end()) { auto newSeverity = fixupLogSeverity(entryN->second->severity(), sevType); if (newSeverity) { lg2::info("Changing event log {ID} severity from {OLD} " "to {NEW} to match PEL", "ID", lg2::hex, entryN->second->id(), "OLD", Entry::convertLevelToString(entryN->second->severity()), "NEW", Entry::convertLevelToString(*newSeverity)); entryN->second->severity(*newSeverity, true); } } } void Manager::setEntryPath(uint32_t obmcLogID) { Repository::LogID id{Repository::LogID::Obmc(obmcLogID)}; if (auto attributes = _repo.getPELAttributes(id); attributes) { auto& attr = attributes.value().get(); auto entry = _logManager.entries.find(obmcLogID); if (entry != _logManager.entries.end()) { entry->second->path(attr.path, true); } } } void Manager::setServiceProviderNotifyFlag(uint32_t obmcLogID) { Repository::LogID id{Repository::LogID::Obmc(obmcLogID)}; if (auto attributes = _repo.getPELAttributes(id); attributes) { auto& attr = attributes.value().get(); auto entry = _logManager.entries.find(obmcLogID); if (entry != _logManager.entries.end()) { if (attr.actionFlags.test(callHomeFlagBit)) { entry->second->serviceProviderNotify(Entry::Notify::Notify, true); } else { entry->second->serviceProviderNotify(Entry::Notify::Inhibit, true); } } } } void Manager::createPELEntry(uint32_t obmcLogID, bool skipIaSignal) { std::map varData; Repository::LogID id{Repository::LogID::Obmc(obmcLogID)}; if (auto attributes = _repo.getPELAttributes(id); attributes) { namespace pv = openpower::pels::pel_values; auto& attr = attributes.value().get(); // get the hidden flag values auto sevType = static_cast(attr.severity & 0xF0); auto isHidden = true; if (((sevType != SeverityType::nonError) && attr.actionFlags.test(reportFlagBit) && !attr.actionFlags.test(hiddenFlagBit)) || ((sevType == SeverityType::nonError) && attr.actionFlags.test(serviceActionFlagBit))) { isHidden = false; } varData.emplace(std::string("Hidden"), isHidden); varData.emplace( std::string("Subsystem"), pv::getValue(attr.subsystem, pel_values::subsystemValues)); varData.emplace( std::string("ManagementSystemAck"), (attr.hmcState == TransmissionState::acked ? true : false)); varData.emplace("PlatformLogID", attr.plid); varData.emplace("Deconfig", attr.deconfig); varData.emplace("Guard", attr.guard); varData.emplace("Timestamp", attr.creationTime); // Path to create PELEntry Interface is same as PEL auto path = std::string(OBJ_ENTRY) + '/' + std::to_string(obmcLogID); // Create Interface for PELEntry and set properties auto pelEntry = std::make_unique(_logManager.getBus(), path, varData, obmcLogID, &_repo); if (!skipIaSignal) { pelEntry->emit_added(); } _pelEntries.emplace(std::move(path), std::move(pelEntry)); } } uint32_t Manager::getPELIdFromBMCLogId(uint32_t bmcLogId) { Repository::LogID id{Repository::LogID::Obmc(bmcLogId)}; if (auto logId = _repo.getLogID(id); !logId.has_value()) { throw common_error::InvalidArgument(); } else { return logId->pelID.id; } } uint32_t Manager::getBMCLogIdFromPELId(uint32_t pelId) { Repository::LogID id{Repository::LogID::Pel(pelId)}; if (auto logId = _repo.getLogID(id); !logId.has_value()) { throw common_error::InvalidArgument(); } else { return logId->obmcID.id; } } void Manager::updateProgressSRC( std::unique_ptr& pel) const { // Check for pel severity of type - 0x51 = critical error, system // termination if (pel->userHeader().severity() == 0x51) { auto src = pel->primarySRC(); if (src) { std::vector asciiSRC = (*src)->getSrcStruct(); uint64_t srcRefCode = 0; // Read bytes from offset [40-47] e.g. BD8D1001 for (int i = 0; i < 8; i++) { srcRefCode |= (static_cast(asciiSRC[40 + i]) << (8 * i)); } try { _dataIface->createProgressSRC(srcRefCode, asciiSRC); } catch (const std::exception&) { // Exception - may be no boot progress interface on dbus } } } } void Manager::scheduleObmcLogDelete(uint32_t obmcLogID) { _obmcLogDeleteEventSource = std::make_unique( _event, std::bind(std::mem_fn(&Manager::deleteObmcLog), this, std::placeholders::_1, obmcLogID)); } void Manager::deleteObmcLog(sdeventplus::source::EventBase&, uint32_t obmcLogID) { lg2::info("Removing event log with no PEL: {BMCID}", "BMCID", obmcLogID); _logManager.erase(obmcLogID); _obmcLogDeleteEventSource.reset(); } bool Manager::clearPowerThermalDeconfigFlag(const std::string& locationCode, openpower::pels::PEL& pel) { // The requirements state that only power-thermal or // fan PELs need their deconfig flag cleared. static const std::vector compIDs{bmcThermalCompID, bmcFansCompID}; if (std::find(compIDs.begin(), compIDs.end(), pel.privateHeader().header().componentID) == compIDs.end()) { return false; } auto src = pel.primarySRC(); const auto& callouts = (*src)->callouts(); if (!callouts) { return false; } for (const auto& callout : callouts->callouts()) { // Look for the passed in location code in a callout that // is either a normal HW callout or a symbolic FRU with // a trusted location code callout. if ((callout->locationCode() != locationCode) || !callout->fruIdentity()) { continue; } if ((callout->fruIdentity()->failingComponentType() != src::FRUIdentity::hardwareFRU) && (callout->fruIdentity()->failingComponentType() != src::FRUIdentity::symbolicFRUTrustedLocCode)) { continue; } lg2::info( "Clearing deconfig flag in PEL {ID} with SRC {SRC} because {LOC} was replaced", "ID", lg2::hex, pel.id(), "SRC", (*src)->asciiString().substr(0, 8), "LOC", locationCode); (*src)->clearErrorStatusFlag(SRC::ErrorStatusFlags::deconfigured); return true; } return false; } void Manager::hardwarePresent(const std::string& locationCode) { Repository::PELUpdateFunc handlePowerThermalHardwarePresent = [locationCode](openpower::pels::PEL& pel) { return Manager::clearPowerThermalDeconfigFlag(locationCode, pel); }; // If the PEL was created by the BMC and has the deconfig flag set, // it's a candidate to have the deconfig flag cleared. for (const auto& [id, attributes] : _repo.getAttributesMap()) { if ((attributes.creator == static_cast(CreatorID::openBMC)) && attributes.deconfig) { auto updated = _repo.updatePEL(attributes.path, handlePowerThermalHardwarePresent); if (updated) { // Also update the property on D-Bus auto objPath = std::string(OBJ_ENTRY) + '/' + std::to_string(id.obmcID.id); auto entryN = _pelEntries.find(objPath); if (entryN != _pelEntries.end()) { entryN->second->deconfig(false); } else { lg2::error( "Could not find PEL Entry D-Bus object for {PATH}", "PATH", objPath); } } } } } } // namespace pels } // namespace openpower