/** * 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 "src.hpp" #include "json_utils.hpp" #include "paths.hpp" #include "pel_values.hpp" #include namespace openpower { namespace pels { namespace pv = openpower::pels::pel_values; namespace rg = openpower::pels::message; using namespace phosphor::logging; void SRC::unflatten(Stream& stream) { stream >> _header >> _version >> _flags >> _reserved1B >> _wordCount >> _reserved2B >> _size; for (auto& word : _hexData) { stream >> word; } _asciiString = std::make_unique(stream); if (hasAdditionalSections()) { // The callouts section is currently the only extra subsection type _callouts = std::make_unique(stream); } } void SRC::flatten(Stream& stream) const { stream << _header << _version << _flags << _reserved1B << _wordCount << _reserved2B << _size; for (auto& word : _hexData) { stream << word; } _asciiString->flatten(stream); if (_callouts) { _callouts->flatten(stream); } } SRC::SRC(Stream& pel) { try { unflatten(pel); validate(); } catch (const std::exception& e) { log("Cannot unflatten SRC", entry("ERROR=%s", e.what())); _valid = false; } } SRC::SRC(const message::Entry& regEntry, const AdditionalData& additionalData) { _header.id = static_cast(SectionID::primarySRC); _header.version = srcSectionVersion; _header.subType = srcSectionSubtype; _header.componentID = regEntry.componentID; _version = srcVersion; _flags = 0; if (regEntry.src.powerFault.value_or(false)) { _flags |= powerFaultEvent; } _reserved1B = 0; _wordCount = numSRCHexDataWords + 1; _reserved2B = 0; // There are multiple fields encoded in the hex data words. std::for_each(_hexData.begin(), _hexData.end(), [](auto& word) { word = 0; }); setBMCFormat(); setBMCPosition(); // Partition dump status and partition boot type always 0 for BMC errors. // // TODO: Fill in other fields that aren't available yet. // Fill in the last 4 words from the AdditionalData property contents. setUserDefinedHexWords(regEntry, additionalData); _asciiString = std::make_unique(regEntry); // TODO: add callouts using the Callouts object _size = baseSRCSize; _size += _callouts ? _callouts->flattenedSize() : 0; _header.size = Section::flattenedSize() + _size; _valid = true; } void SRC::setUserDefinedHexWords(const message::Entry& regEntry, const AdditionalData& ad) { if (!regEntry.src.hexwordADFields) { return; } // Save the AdditionalData value corresponding to the // adName key in _hexData[wordNum]. for (const auto& [wordNum, adName] : *regEntry.src.hexwordADFields) { // Can only set words 6 - 9 if (!isUserDefinedWord(wordNum)) { log("SRC user data word out of range", entry("WORD_NUM=%d", wordNum), entry("ERROR_NAME=%s", regEntry.name.c_str())); continue; } auto value = ad.getValue(adName); if (value) { _hexData[getWordIndexFromWordNum(wordNum)] = std::strtoul(value.value().c_str(), nullptr, 0); } else { log("Source for user data SRC word not found", entry("ADDITIONALDATA_KEY=%s", adName.c_str()), entry("ERROR_NAME=%s", regEntry.name.c_str())); } } } void SRC::validate() { bool failed = false; if ((header().id != static_cast(SectionID::primarySRC)) && (header().id != static_cast(SectionID::secondarySRC))) { log("Invalid SRC section ID", entry("ID=0x%X", header().id)); failed = true; } // Check the version in the SRC, not in the header if (_version != srcVersion) { log("Invalid SRC version", entry("VERSION=0x%X", _version)); failed = true; } _valid = failed ? false : true; } std::optional SRC::getErrorDetails(message::Registry& registry, DetailLevel type, bool toCache) const { const std::string jsonIndent(indentLevel, 0x20); std::string errorOut; uint8_t errorType = strtoul(asciiString().substr(0, 2).c_str(), nullptr, 16); if (errorType == static_cast(SRCType::bmcError) || errorType == static_cast(SRCType::powerError)) { auto entry = registry.lookup("0x" + asciiString().substr(4, 4), rg::LookupType::reasonCode, toCache); if (entry) { errorOut.append(jsonIndent + "\"Error Details\": {\n"); auto errorMsg = getErrorMessage(*entry); if (errorMsg) { if (type == DetailLevel::message) { return errorMsg.value(); } else { jsonInsert(errorOut, "Message", errorMsg.value(), 2); } } if (entry->src.hexwordADFields) { std::map adFields = entry->src.hexwordADFields.value(); for (const auto& hexwordMap : adFields) { jsonInsert(errorOut, hexwordMap.second, getNumberString("0x%X", _hexData[getWordIndexFromWordNum( hexwordMap.first)]), 2); } } errorOut.erase(errorOut.size() - 2); errorOut.append("\n"); errorOut.append(jsonIndent + "},\n"); return errorOut; } } return std::nullopt; } std::optional SRC::getErrorMessage(const message::Entry& regEntry) const { try { if (regEntry.doc.messageArgSources) { size_t msgLen = regEntry.doc.message.length(); char msg[msgLen + 1]; strcpy(msg, regEntry.doc.message.c_str()); std::vector argSourceVals; std::string message; const auto& argValues = regEntry.doc.messageArgSources.value(); for (size_t i = 0; i < argValues.size(); ++i) { argSourceVals.push_back(_hexData[getWordIndexFromWordNum( argValues[i].back() - '0')]); } const char* msgPointer = msg; while (*msgPointer) { if (*msgPointer == '%') { msgPointer++; size_t wordIndex = *msgPointer - '0'; if (isdigit(*msgPointer) && wordIndex >= 1 && static_cast(wordIndex) <= argSourceVals.size()) { message.append(getNumberString( "0x%X", argSourceVals[wordIndex - 1])); } else { message.append("%" + std::string(1, *msgPointer)); } } else { message.push_back(*msgPointer); } msgPointer++; } return message; } else { return regEntry.doc.message; } } catch (const std::exception& e) { log("Cannot get error message from registry entry", entry("ERROR=%s", e.what())); } return std::nullopt; } std::optional SRC::getCallouts() const { if (!_callouts) { return std::nullopt; } std::string printOut; const std::string jsonIndent(indentLevel, 0x20); const auto& callout = _callouts->callouts(); const auto& compDescrp = pv::failingComponentType; printOut.append(jsonIndent + "\"Callout Section\": {\n"); jsonInsert(printOut, "Callout Count", std::to_string(callout.size()), 2); printOut.append(jsonIndent + jsonIndent + "\"Callouts\": ["); for (auto& entry : callout) { printOut.append("{\n"); if (entry->fruIdentity()) { jsonInsert( printOut, "FRU Type", compDescrp.at(entry->fruIdentity()->failingComponentType()), 3); jsonInsert(printOut, "Priority", pv::getValue(entry->priority(), pel_values::calloutPriorityValues), 3); if (!entry->locationCode().empty()) { jsonInsert(printOut, "Location Code", entry->locationCode(), 3); } if (entry->fruIdentity()->getPN().has_value()) { jsonInsert(printOut, "Part Number", entry->fruIdentity()->getPN().value(), 3); } if (entry->fruIdentity()->getMaintProc().has_value()) { jsonInsert(printOut, "Procedure Number", entry->fruIdentity()->getMaintProc().value(), 3); if (pv::procedureDesc.find( entry->fruIdentity()->getMaintProc().value()) != pv::procedureDesc.end()) { jsonInsert( printOut, "Description", pv::procedureDesc.at( entry->fruIdentity()->getMaintProc().value()), 3); } } if (entry->fruIdentity()->getCCIN().has_value()) { jsonInsert(printOut, "CCIN", entry->fruIdentity()->getCCIN().value(), 3); } if (entry->fruIdentity()->getSN().has_value()) { jsonInsert(printOut, "Serial Number", entry->fruIdentity()->getSN().value(), 3); } } if (entry->pceIdentity()) { const auto& pceIdentMtms = entry->pceIdentity()->mtms(); if (!pceIdentMtms.machineTypeAndModel().empty()) { jsonInsert(printOut, "PCE MTMS", pceIdentMtms.machineTypeAndModel() + "_" + pceIdentMtms.machineSerialNumber(), 3); } if (!entry->pceIdentity()->enclosureName().empty()) { jsonInsert(printOut, "PCE Name", entry->pceIdentity()->enclosureName(), 3); } } if (entry->mru()) { const auto& mruCallouts = entry->mru()->mrus(); std::string mruId; for (auto& element : mruCallouts) { if (!mruId.empty()) { mruId.append(", " + getNumberString("%08X", element.id)); } else { mruId.append(getNumberString("%08X", element.id)); } } jsonInsert(printOut, "MRU Id", mruId, 3); } printOut.erase(printOut.size() - 2); printOut.append("\n" + jsonIndent + jsonIndent + "}, "); }; printOut.erase(printOut.size() - 2); printOut.append("]\n" + jsonIndent + "}"); return printOut; } std::optional SRC::getJSON() const { std::string ps; jsonInsert(ps, "Section Version", getNumberString("%d", _header.version), 1); jsonInsert(ps, "Sub-section type", getNumberString("%d", _header.subType), 1); jsonInsert(ps, "Created by", getNumberString("0x%X", _header.componentID), 1); jsonInsert(ps, "SRC Version", getNumberString("0x%02X", _version), 1); jsonInsert(ps, "SRC Format", getNumberString("0x%02X", _hexData[0] & 0xFF), 1); jsonInsert(ps, "Virtual Progress SRC", pv::boolString.at(_flags & virtualProgressSRC), 1); jsonInsert(ps, "I5/OS Service Event Bit", pv::boolString.at(_flags & i5OSServiceEventBit), 1); jsonInsert(ps, "Hypervisor Dump Initiated", pv::boolString.at(_flags & hypDumpInit), 1); jsonInsert(ps, "Power Control Net Fault", pv::boolString.at(isPowerFaultEvent()), 1); rg::Registry registry(getMessageRegistryPath() / rg::registryFileName); auto errorDetails = getErrorDetails(registry, DetailLevel::json); if (errorDetails) { ps.append(errorDetails.value()); } jsonInsert(ps, "Valid Word Count", getNumberString("0x%02X", _wordCount), 1); std::string refcode = asciiString(); refcode = refcode.substr(0, refcode.find(0x20)); jsonInsert(ps, "Reference Code", refcode, 1); for (size_t i = 2; i <= _wordCount; i++) { jsonInsert( ps, "Hex Word " + std::to_string(i), getNumberString("%08X", _hexData[getWordIndexFromWordNum(i)]), 1); } auto calloutJson = getCallouts(); if (calloutJson) { ps.append(calloutJson.value()); } else { ps.erase(ps.size() - 2); } return ps; } } // namespace pels } // namespace openpower