1 /** 2 * Copyright © 2019 IBM Corporation 3 * 4 * Licensed under the Apache License, Version 2.0 (the "License"); 5 * you may not use this file except in compliance with the License. 6 * You may obtain a copy of the License at 7 * 8 * http://www.apache.org/licenses/LICENSE-2.0 9 * 10 * Unless required by applicable law or agreed to in writing, software 11 * distributed under the License is distributed on an "AS IS" BASIS, 12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 13 * See the License for the specific language governing permissions and 14 * limitations under the License. 15 */ 16 #include "src.hpp" 17 18 #include "device_callouts.hpp" 19 #include "json_utils.hpp" 20 #include "paths.hpp" 21 #include "pel_values.hpp" 22 #ifdef PELTOOL 23 #include <Python.h> 24 25 #include <nlohmann/json.hpp> 26 27 #include <sstream> 28 #endif 29 #include <phosphor-logging/lg2.hpp> 30 31 #include <format> 32 33 namespace openpower 34 { 35 namespace pels 36 { 37 namespace pv = openpower::pels::pel_values; 38 namespace rg = openpower::pels::message; 39 using namespace std::string_literals; 40 41 constexpr size_t ccinSize = 4; 42 43 #ifdef PELTOOL 44 using orderedJSON = nlohmann::ordered_json; 45 46 void pyDecRef(PyObject* pyObj) 47 { 48 Py_XDECREF(pyObj); 49 } 50 51 /** 52 * @brief Returns a JSON string to append to SRC section. 53 * 54 * The returning string will contain a JSON object, but without 55 * the outer {}. If the input JSON isn't a JSON object (dict), then 56 * one will be created with the input added to a 'SRC Details' key. 57 * 58 * @param[in] json - The JSON to convert to a string 59 * 60 * @return std::string - The JSON string 61 */ 62 std::string prettyJSON(const orderedJSON& json) 63 { 64 orderedJSON output; 65 if (!json.is_object()) 66 { 67 output["SRC Details"] = json; 68 } 69 else 70 { 71 for (const auto& [key, value] : json.items()) 72 { 73 output["SRC Details"][key] = value; 74 } 75 } 76 77 // Let nlohmann do the pretty printing. 78 std::stringstream stream; 79 stream << std::setw(4) << output; 80 81 auto jsonString = stream.str(); 82 83 // Now it looks like: 84 // { 85 // "Key": "Value", 86 // ... 87 // } 88 89 // Replace the { and the following newline, and the } and its 90 // preceeding newline. 91 jsonString.erase(0, 2); 92 93 auto pos = jsonString.find_last_of('}'); 94 jsonString.erase(pos - 1); 95 96 return jsonString; 97 } 98 99 /** 100 * @brief Call Python modules to parse the data into a JSON string 101 * 102 * The module to call is based on the Creator Subsystem ID under the namespace 103 * "srcparsers". For example: "srcparsers.xsrc.xsrc" where "x" is the Creator 104 * Subsystem ID in ASCII lowercase. 105 * 106 * All modules must provide the following: 107 * Function: parseSRCToJson 108 * Argument list: 109 * 1. (str) ASCII string (Hex Word 1) 110 * 2. (str) Hex Word 2 111 * 3. (str) Hex Word 3 112 * 4. (str) Hex Word 4 113 * 5. (str) Hex Word 5 114 * 6. (str) Hex Word 6 115 * 7. (str) Hex Word 7 116 * 8. (str) Hex Word 8 117 * 9. (str) Hex Word 9 118 *-Return data: 119 * 1. (str) JSON string 120 * 121 * @param[in] hexwords - Vector of strings of Hexwords 1-9 122 * @param[in] creatorID - The creatorID from the Private Header section 123 * @return std::optional<std::string> - The JSON string if it could be created, 124 * else std::nullopt 125 */ 126 std::optional<std::string> getPythonJSON(std::vector<std::string>& hexwords, 127 uint8_t creatorID) 128 { 129 PyObject *pName, *pModule, *eType, *eValue, *eTraceback; 130 std::string pErrStr; 131 std::string module = getNumberString("%c", tolower(creatorID)) + "src"; 132 pName = PyUnicode_FromString( 133 std::string("srcparsers." + module + "." + module).c_str()); 134 std::unique_ptr<PyObject, decltype(&pyDecRef)> modNamePtr(pName, &pyDecRef); 135 pModule = PyImport_Import(pName); 136 if (pModule == NULL) 137 { 138 pErrStr = "No error string found"; 139 PyErr_Fetch(&eType, &eValue, &eTraceback); 140 if (eType) 141 { 142 Py_XDECREF(eType); 143 } 144 if (eTraceback) 145 { 146 Py_XDECREF(eTraceback); 147 } 148 if (eValue) 149 { 150 PyObject* pStr = PyObject_Str(eValue); 151 Py_XDECREF(eValue); 152 if (pStr) 153 { 154 pErrStr = PyUnicode_AsUTF8(pStr); 155 Py_XDECREF(pStr); 156 } 157 } 158 } 159 else 160 { 161 std::unique_ptr<PyObject, decltype(&pyDecRef)> modPtr( 162 pModule, &pyDecRef); 163 std::string funcToCall = "parseSRCToJson"; 164 PyObject* pKey = PyUnicode_FromString(funcToCall.c_str()); 165 std::unique_ptr<PyObject, decltype(&pyDecRef)> keyPtr(pKey, &pyDecRef); 166 PyObject* pDict = PyModule_GetDict(pModule); 167 Py_INCREF(pDict); 168 if (!PyDict_Contains(pDict, pKey)) 169 { 170 Py_DECREF(pDict); 171 lg2::error( 172 "Python module error. Function missing: {FUNC}, SRC = {SRC}, module = {MODULE}", 173 "FUNC", funcToCall, "SRC", hexwords.front(), "MODULE", module); 174 return std::nullopt; 175 } 176 PyObject* pFunc = PyDict_GetItemString(pDict, funcToCall.c_str()); 177 Py_DECREF(pDict); 178 Py_INCREF(pFunc); 179 if (PyCallable_Check(pFunc)) 180 { 181 PyObject* pArgs = PyTuple_New(9); 182 std::unique_ptr<PyObject, decltype(&pyDecRef)> argPtr( 183 pArgs, &pyDecRef); 184 for (size_t i = 0; i < 9; i++) 185 { 186 std::string arg{"00000000"}; 187 if (i < hexwords.size()) 188 { 189 arg = hexwords[i]; 190 } 191 PyTuple_SetItem(pArgs, i, Py_BuildValue("s", arg.c_str())); 192 } 193 PyObject* pResult = PyObject_CallObject(pFunc, pArgs); 194 Py_DECREF(pFunc); 195 if (pResult) 196 { 197 std::unique_ptr<PyObject, decltype(&pyDecRef)> resPtr( 198 pResult, &pyDecRef); 199 PyObject* pBytes = 200 PyUnicode_AsEncodedString(pResult, "utf-8", "~E~"); 201 std::unique_ptr<PyObject, decltype(&pyDecRef)> pyBytePtr( 202 pBytes, &pyDecRef); 203 const char* output = PyBytes_AS_STRING(pBytes); 204 try 205 { 206 orderedJSON json = orderedJSON::parse(output); 207 if ((json.is_object() && !json.empty()) || 208 (json.is_array() && json.size() > 0) || 209 (json.is_string() && json != "")) 210 { 211 return prettyJSON(json); 212 } 213 } 214 catch (const std::exception& e) 215 { 216 lg2::error( 217 "Bad JSON from parser. Error = {ERROR}, SRC = {SRC}, module = {MODULE}", 218 "ERROR", e, "SRC", hexwords.front(), "MODULE", module); 219 return std::nullopt; 220 } 221 } 222 else 223 { 224 pErrStr = "No error string found"; 225 PyErr_Fetch(&eType, &eValue, &eTraceback); 226 if (eType) 227 { 228 Py_XDECREF(eType); 229 } 230 if (eTraceback) 231 { 232 Py_XDECREF(eTraceback); 233 } 234 if (eValue) 235 { 236 PyObject* pStr = PyObject_Str(eValue); 237 Py_XDECREF(eValue); 238 if (pStr) 239 { 240 pErrStr = PyUnicode_AsUTF8(pStr); 241 Py_XDECREF(pStr); 242 } 243 } 244 } 245 } 246 } 247 if (!pErrStr.empty()) 248 { 249 lg2::debug("Python exception thrown by parser. Error = {ERROR}, " 250 "SRC = {SRC}, module = {MODULE}", 251 "ERROR", pErrStr, "SRC", hexwords.front(), "MODULE", module); 252 } 253 return std::nullopt; 254 } 255 #endif 256 257 void SRC::unflatten(Stream& stream) 258 { 259 stream >> _header >> _version >> _flags >> _reserved1B >> _wordCount >> 260 _reserved2B >> _size; 261 262 for (auto& word : _hexData) 263 { 264 stream >> word; 265 } 266 267 _asciiString = std::make_unique<src::AsciiString>(stream); 268 269 if (hasAdditionalSections()) 270 { 271 // The callouts section is currently the only extra subsection type 272 _callouts = std::make_unique<src::Callouts>(stream); 273 } 274 } 275 276 void SRC::flatten(Stream& stream) const 277 { 278 stream << _header << _version << _flags << _reserved1B << _wordCount 279 << _reserved2B << _size; 280 281 for (auto& word : _hexData) 282 { 283 stream << word; 284 } 285 286 _asciiString->flatten(stream); 287 288 if (_callouts) 289 { 290 _callouts->flatten(stream); 291 } 292 } 293 294 SRC::SRC(Stream& pel) 295 { 296 try 297 { 298 unflatten(pel); 299 validate(); 300 } 301 catch (const std::exception& e) 302 { 303 lg2::error("Cannot unflatten SRC, error = {ERROR}", "ERROR", e); 304 _valid = false; 305 } 306 } 307 308 SRC::SRC(const message::Entry& regEntry, const AdditionalData& additionalData, 309 const nlohmann::json& jsonCallouts, const DataInterfaceBase& dataIface) 310 { 311 _header.id = static_cast<uint16_t>(SectionID::primarySRC); 312 _header.version = srcSectionVersion; 313 _header.subType = srcSectionSubtype; 314 _header.componentID = regEntry.componentID; 315 316 _version = srcVersion; 317 318 _flags = 0; 319 320 _reserved1B = 0; 321 322 _wordCount = numSRCHexDataWords + 1; 323 324 _reserved2B = 0; 325 326 // There are multiple fields encoded in the hex data words. 327 std::for_each(_hexData.begin(), _hexData.end(), 328 [](auto& word) { word = 0; }); 329 330 // Hex Word 2 Nibbles: 331 // MIGVEPFF 332 // M: Partition dump status = 0 333 // I: System boot state = TODO 334 // G: Partition Boot type = 0 335 // V: BMC dump status 336 // E: Platform boot mode = 0 (side = temporary, speed = fast) 337 // P: Platform dump status 338 // FF: SRC format, set below 339 340 setProgressCode(dataIface); 341 setBMCFormat(); 342 setBMCPosition(); 343 setMotherboardCCIN(dataIface); 344 345 if (regEntry.src.checkstopFlag) 346 { 347 setErrorStatusFlag(ErrorStatusFlags::hwCheckstop); 348 } 349 350 if (regEntry.src.deconfigFlag) 351 { 352 setErrorStatusFlag(ErrorStatusFlags::deconfigured); 353 } 354 355 // Fill in the last 4 words from the AdditionalData property contents. 356 setUserDefinedHexWords(regEntry, additionalData); 357 358 _asciiString = std::make_unique<src::AsciiString>(regEntry); 359 360 // Check for additional data - PEL_SUBSYSTEM 361 auto ss = additionalData.getValue("PEL_SUBSYSTEM"); 362 if (ss) 363 { 364 auto eventSubsystem = std::stoul(*ss, nullptr, 16); 365 std::string subsystem = 366 pv::getValue(eventSubsystem, pel_values::subsystemValues); 367 if (subsystem == "invalid") 368 { 369 lg2::warning("SRC: Invalid SubSystem value: {VAL}", "VAL", lg2::hex, 370 eventSubsystem); 371 } 372 else 373 { 374 _asciiString->setByte(2, eventSubsystem); 375 } 376 } 377 378 addCallouts(regEntry, additionalData, jsonCallouts, dataIface); 379 380 _size = baseSRCSize; 381 _size += _callouts ? _callouts->flattenedSize() : 0; 382 _header.size = Section::headerSize() + _size; 383 384 _valid = true; 385 } 386 387 void SRC::setUserDefinedHexWords(const message::Entry& regEntry, 388 const AdditionalData& ad) 389 { 390 if (!regEntry.src.hexwordADFields) 391 { 392 return; 393 } 394 395 // Save the AdditionalData value corresponding to the first element of 396 // adName tuple into _hexData[wordNum]. 397 for (const auto& [wordNum, adName] : *regEntry.src.hexwordADFields) 398 { 399 // Can only set words 6 - 9 400 if (!isUserDefinedWord(wordNum)) 401 { 402 std::string msg = 403 "SRC user data word out of range: " + std::to_string(wordNum); 404 addDebugData(msg); 405 continue; 406 } 407 408 auto value = ad.getValue(std::get<0>(adName)); 409 if (value) 410 { 411 _hexData[getWordIndexFromWordNum(wordNum)] = 412 std::strtoul(value.value().c_str(), nullptr, 0); 413 } 414 else 415 { 416 std::string msg = "Source for user data SRC word not found: " + 417 std::get<0>(adName); 418 addDebugData(msg); 419 } 420 } 421 } 422 423 void SRC::setMotherboardCCIN(const DataInterfaceBase& dataIface) 424 { 425 uint32_t ccin = 0; 426 auto ccinString = dataIface.getMotherboardCCIN(); 427 428 try 429 { 430 if (ccinString.size() == ccinSize) 431 { 432 ccin = std::stoi(ccinString, nullptr, 16); 433 } 434 } 435 catch (const std::exception& e) 436 { 437 lg2::warning("Could not convert motherboard CCIN {CCIN} to a number", 438 "CCIN", ccinString); 439 return; 440 } 441 442 // Set the first 2 bytes 443 _hexData[1] |= ccin << 16; 444 } 445 446 void SRC::validate() 447 { 448 bool failed = false; 449 450 if ((header().id != static_cast<uint16_t>(SectionID::primarySRC)) && 451 (header().id != static_cast<uint16_t>(SectionID::secondarySRC))) 452 { 453 lg2::error("Invalid SRC section ID: {ID}", "ID", lg2::hex, header().id); 454 failed = true; 455 } 456 457 // Check the version in the SRC, not in the header 458 if (_version != srcVersion) 459 { 460 lg2::error("Invalid SRC version: {VERSION}", "VERSION", lg2::hex, 461 header().version); 462 failed = true; 463 } 464 465 _valid = failed ? false : true; 466 } 467 468 bool SRC::isBMCSRC() const 469 { 470 auto as = asciiString(); 471 if (as.length() >= 2) 472 { 473 uint8_t errorType = strtoul(as.substr(0, 2).c_str(), nullptr, 16); 474 return (errorType == static_cast<uint8_t>(SRCType::bmcError) || 475 errorType == static_cast<uint8_t>(SRCType::powerError)); 476 } 477 return false; 478 } 479 480 bool SRC::isHostbootSRC() const 481 { 482 auto as = asciiString(); 483 if (as.length() >= 2) 484 { 485 uint8_t errorType = strtoul(as.substr(0, 2).c_str(), nullptr, 16); 486 return errorType == static_cast<uint8_t>(SRCType::hostbootError); 487 } 488 return false; 489 } 490 491 std::optional<std::string> SRC::getErrorDetails( 492 message::Registry& registry, DetailLevel type, bool toCache) const 493 { 494 const std::string jsonIndent(indentLevel, 0x20); 495 std::string errorOut; 496 if (isBMCSRC()) 497 { 498 auto entry = registry.lookup("0x" + asciiString().substr(4, 4), 499 rg::LookupType::reasonCode, toCache); 500 if (entry) 501 { 502 errorOut.append(jsonIndent + "\"Error Details\": {\n"); 503 auto errorMsg = getErrorMessage(*entry); 504 if (errorMsg) 505 { 506 if (type == DetailLevel::message) 507 { 508 return errorMsg.value(); 509 } 510 else 511 { 512 jsonInsert(errorOut, "Message", errorMsg.value(), 2); 513 } 514 } 515 if (entry->src.hexwordADFields) 516 { 517 std::map<size_t, std::tuple<std::string, std::string>> 518 adFields = entry->src.hexwordADFields.value(); 519 for (const auto& hexwordMap : adFields) 520 { 521 auto srcValue = getNumberString( 522 "0x%X", 523 _hexData[getWordIndexFromWordNum(hexwordMap.first)]); 524 525 auto srcKey = std::get<0>(hexwordMap.second); 526 auto srcDesc = std::get<1>(hexwordMap.second); 527 528 // Only include this hex word in the error details if the 529 // description exists. 530 if (!srcDesc.empty()) 531 { 532 std::vector<std::string> valueDescr; 533 valueDescr.push_back(srcValue); 534 valueDescr.push_back(srcDesc); 535 jsonInsertArray(errorOut, srcKey, valueDescr, 2); 536 } 537 } 538 } 539 errorOut.erase(errorOut.size() - 2); 540 errorOut.append("\n"); 541 errorOut.append(jsonIndent + "},\n"); 542 return errorOut; 543 } 544 } 545 return std::nullopt; 546 } 547 548 std::optional<std::string> SRC::getErrorMessage( 549 const message::Entry& regEntry) const 550 { 551 try 552 { 553 if (regEntry.doc.messageArgSources) 554 { 555 std::vector<uint32_t> argSourceVals; 556 std::string message; 557 const auto& argValues = regEntry.doc.messageArgSources.value(); 558 for (size_t i = 0; i < argValues.size(); ++i) 559 { 560 argSourceVals.push_back(_hexData[getWordIndexFromWordNum( 561 argValues[i].back() - '0')]); 562 } 563 564 auto it = std::begin(regEntry.doc.message); 565 auto it_end = std::end(regEntry.doc.message); 566 567 while (it != it_end) 568 { 569 if (*it == '%') 570 { 571 ++it; 572 573 size_t wordIndex = *it - '0'; 574 if (isdigit(*it) && wordIndex >= 1 && 575 static_cast<uint16_t>(wordIndex) <= 576 argSourceVals.size()) 577 { 578 message.append(getNumberString( 579 "0x%08X", argSourceVals[wordIndex - 1])); 580 } 581 else 582 { 583 message.append("%" + std::string(1, *it)); 584 } 585 } 586 else 587 { 588 message.push_back(*it); 589 } 590 ++it; 591 } 592 593 return message; 594 } 595 else 596 { 597 return regEntry.doc.message; 598 } 599 } 600 catch (const std::exception& e) 601 { 602 lg2::error( 603 "Cannot get error message from registry entry, error = {ERROR}", 604 "ERROR", e); 605 } 606 return std::nullopt; 607 } 608 609 std::optional<std::string> SRC::getCallouts() const 610 { 611 if (!_callouts) 612 { 613 return std::nullopt; 614 } 615 std::string printOut; 616 const std::string jsonIndent(indentLevel, 0x20); 617 const auto& callout = _callouts->callouts(); 618 const auto& compDescrp = pv::failingComponentType; 619 printOut.append(jsonIndent + "\"Callout Section\": {\n"); 620 jsonInsert(printOut, "Callout Count", std::to_string(callout.size()), 2); 621 printOut.append(jsonIndent + jsonIndent + "\"Callouts\": ["); 622 for (auto& entry : callout) 623 { 624 printOut.append("{\n"); 625 if (entry->fruIdentity()) 626 { 627 jsonInsert( 628 printOut, "FRU Type", 629 compDescrp.at(entry->fruIdentity()->failingComponentType()), 3); 630 jsonInsert(printOut, "Priority", 631 pv::getValue(entry->priority(), 632 pel_values::calloutPriorityValues), 633 3); 634 if (!entry->locationCode().empty()) 635 { 636 jsonInsert(printOut, "Location Code", entry->locationCode(), 3); 637 } 638 if (entry->fruIdentity()->getPN().has_value()) 639 { 640 jsonInsert(printOut, "Part Number", 641 entry->fruIdentity()->getPN().value(), 3); 642 } 643 if (entry->fruIdentity()->getMaintProc().has_value()) 644 { 645 jsonInsert(printOut, "Procedure", 646 entry->fruIdentity()->getMaintProc().value(), 3); 647 if (pv::procedureDesc.find( 648 entry->fruIdentity()->getMaintProc().value()) != 649 pv::procedureDesc.end()) 650 { 651 jsonInsert( 652 printOut, "Description", 653 pv::procedureDesc.at( 654 entry->fruIdentity()->getMaintProc().value()), 655 3); 656 } 657 } 658 if (entry->fruIdentity()->getCCIN().has_value()) 659 { 660 jsonInsert(printOut, "CCIN", 661 entry->fruIdentity()->getCCIN().value(), 3); 662 } 663 if (entry->fruIdentity()->getSN().has_value()) 664 { 665 jsonInsert(printOut, "Serial Number", 666 entry->fruIdentity()->getSN().value(), 3); 667 } 668 } 669 if (entry->pceIdentity()) 670 { 671 const auto& pceIdentMtms = entry->pceIdentity()->mtms(); 672 if (!pceIdentMtms.machineTypeAndModel().empty()) 673 { 674 jsonInsert(printOut, "PCE MTMS", 675 pceIdentMtms.machineTypeAndModel() + "_" + 676 pceIdentMtms.machineSerialNumber(), 677 3); 678 } 679 if (!entry->pceIdentity()->enclosureName().empty()) 680 { 681 jsonInsert(printOut, "PCE Name", 682 entry->pceIdentity()->enclosureName(), 3); 683 } 684 } 685 if (entry->mru()) 686 { 687 const auto& mruCallouts = entry->mru()->mrus(); 688 std::string mruId; 689 for (auto& element : mruCallouts) 690 { 691 if (!mruId.empty()) 692 { 693 mruId.append(", " + getNumberString("%08X", element.id)); 694 } 695 else 696 { 697 mruId.append(getNumberString("%08X", element.id)); 698 } 699 } 700 jsonInsert(printOut, "MRU Id", mruId, 3); 701 } 702 printOut.erase(printOut.size() - 2); 703 printOut.append("\n" + jsonIndent + jsonIndent + "}, "); 704 }; 705 printOut.erase(printOut.size() - 2); 706 printOut.append("]\n" + jsonIndent + "}"); 707 return printOut; 708 } 709 710 std::optional<std::string> SRC::getJSON(message::Registry& registry, 711 const std::vector<std::string>& plugins 712 [[maybe_unused]], 713 uint8_t creatorID) const 714 { 715 std::string ps; 716 std::vector<std::string> hexwords; 717 jsonInsert(ps, pv::sectionVer, getNumberString("%d", _header.version), 1); 718 jsonInsert(ps, pv::subSection, getNumberString("%d", _header.subType), 1); 719 jsonInsert(ps, pv::createdBy, 720 getComponentName(_header.componentID, creatorID), 1); 721 jsonInsert(ps, "SRC Version", getNumberString("0x%02X", _version), 1); 722 jsonInsert(ps, "SRC Format", getNumberString("0x%02X", _hexData[0] & 0xFF), 723 1); 724 jsonInsert(ps, "Virtual Progress SRC", 725 pv::boolString.at(_flags & virtualProgressSRC), 1); 726 jsonInsert(ps, "I5/OS Service Event Bit", 727 pv::boolString.at(_flags & i5OSServiceEventBit), 1); 728 jsonInsert(ps, "Hypervisor Dump Initiated", 729 pv::boolString.at(_flags & hypDumpInit), 1); 730 731 if (isBMCSRC()) 732 { 733 std::string ccinString; 734 uint32_t ccin = _hexData[1] >> 16; 735 736 if (ccin) 737 { 738 ccinString = getNumberString("%04X", ccin); 739 } 740 // The PEL spec calls it a backplane, so call it that here. 741 jsonInsert(ps, "Backplane CCIN", ccinString, 1); 742 743 jsonInsert(ps, "Terminate FW Error", 744 pv::boolString.at( 745 _hexData[3] & 746 static_cast<uint32_t>(ErrorStatusFlags::terminateFwErr)), 747 1); 748 } 749 750 if (isBMCSRC() || isHostbootSRC()) 751 { 752 jsonInsert(ps, "Deconfigured", 753 pv::boolString.at( 754 _hexData[3] & 755 static_cast<uint32_t>(ErrorStatusFlags::deconfigured)), 756 1); 757 758 jsonInsert( 759 ps, "Guarded", 760 pv::boolString.at( 761 _hexData[3] & static_cast<uint32_t>(ErrorStatusFlags::guarded)), 762 1); 763 } 764 765 auto errorDetails = getErrorDetails(registry, DetailLevel::json, true); 766 if (errorDetails) 767 { 768 ps.append(errorDetails.value()); 769 } 770 jsonInsert(ps, "Valid Word Count", getNumberString("0x%02X", _wordCount), 771 1); 772 std::string refcode = asciiString(); 773 hexwords.push_back(refcode); 774 std::string extRefcode; 775 size_t pos = refcode.find(0x20); 776 if (pos != std::string::npos) 777 { 778 size_t nextPos = refcode.find_first_not_of(0x20, pos); 779 if (nextPos != std::string::npos) 780 { 781 extRefcode = trimEnd(refcode.substr(nextPos)); 782 } 783 refcode.erase(pos); 784 } 785 jsonInsert(ps, "Reference Code", refcode, 1); 786 if (!extRefcode.empty()) 787 { 788 jsonInsert(ps, "Extended Reference Code", extRefcode, 1); 789 } 790 for (size_t i = 2; i <= _wordCount; i++) 791 { 792 std::string tmpWord = 793 getNumberString("%08X", _hexData[getWordIndexFromWordNum(i)]); 794 jsonInsert(ps, "Hex Word " + std::to_string(i), tmpWord, 1); 795 hexwords.push_back(tmpWord); 796 } 797 auto calloutJson = getCallouts(); 798 if (calloutJson) 799 { 800 ps.append(calloutJson.value()); 801 ps.append(",\n"); 802 } 803 std::string subsystem = getNumberString("%c", tolower(creatorID)); 804 bool srcDetailExists = false; 805 #ifdef PELTOOL 806 if (std::find(plugins.begin(), plugins.end(), subsystem + "src") != 807 plugins.end()) 808 { 809 auto pyJson = getPythonJSON(hexwords, creatorID); 810 if (pyJson) 811 { 812 ps.append(pyJson.value()); 813 srcDetailExists = true; 814 } 815 } 816 #endif 817 if (!srcDetailExists) 818 { 819 ps.erase(ps.size() - 2); 820 } 821 return ps; 822 } 823 824 void SRC::addCallouts(const message::Entry& regEntry, 825 const AdditionalData& additionalData, 826 const nlohmann::json& jsonCallouts, 827 const DataInterfaceBase& dataIface) 828 { 829 auto registryCallouts = 830 getRegistryCallouts(regEntry, additionalData, dataIface); 831 832 auto item = additionalData.getValue("CALLOUT_INVENTORY_PATH"); 833 auto priority = additionalData.getValue("CALLOUT_PRIORITY"); 834 835 std::optional<CalloutPriority> calloutPriority; 836 837 // Only H, M or L priority values. 838 if (priority && !(*priority).empty()) 839 { 840 uint8_t p = (*priority)[0]; 841 if (p == 'H' || p == 'M' || p == 'L') 842 { 843 calloutPriority = static_cast<CalloutPriority>(p); 844 } 845 } 846 // If the first registry callout says to use the passed in inventory 847 // path to get the location code for a symbolic FRU callout with a 848 // trusted location code, then do not add the inventory path as a 849 // normal FRU callout. 850 bool useInvForSymbolicFRULocCode = 851 !registryCallouts.empty() && registryCallouts[0].useInventoryLocCode && 852 !registryCallouts[0].symbolicFRUTrusted.empty(); 853 854 if (item && !useInvForSymbolicFRULocCode) 855 { 856 addInventoryCallout(*item, calloutPriority, std::nullopt, dataIface); 857 } 858 859 addDevicePathCallouts(additionalData, dataIface); 860 861 addRegistryCallouts(registryCallouts, dataIface, 862 (useInvForSymbolicFRULocCode) ? item : std::nullopt); 863 864 if (!jsonCallouts.empty()) 865 { 866 addJSONCallouts(jsonCallouts, dataIface); 867 } 868 } 869 870 void SRC::addLocationCodeOnlyCallout(const std::string& locationCode, 871 const CalloutPriority priority) 872 { 873 std::string empty; 874 std::vector<src::MRU::MRUCallout> mrus; 875 auto callout = std::make_unique<src::Callout>(priority, locationCode, empty, 876 empty, empty, mrus); 877 createCalloutsObject(); 878 _callouts->addCallout(std::move(callout)); 879 } 880 881 void SRC::addInventoryCallout(const std::string& inventoryPath, 882 const std::optional<CalloutPriority>& priority, 883 const std::optional<std::string>& locationCode, 884 const DataInterfaceBase& dataIface, 885 const std::vector<src::MRU::MRUCallout>& mrus) 886 { 887 std::string locCode; 888 std::string fn; 889 std::string ccin; 890 std::string sn; 891 std::unique_ptr<src::Callout> callout; 892 893 try 894 { 895 // Use the passed in location code if there otherwise look it up 896 if (locationCode) 897 { 898 locCode = *locationCode; 899 } 900 else 901 { 902 locCode = dataIface.getLocationCode(inventoryPath); 903 } 904 905 try 906 { 907 dataIface.getHWCalloutFields(inventoryPath, fn, ccin, sn); 908 909 CalloutPriority p = 910 priority ? priority.value() : CalloutPriority::high; 911 912 callout = 913 std::make_unique<src::Callout>(p, locCode, fn, ccin, sn, mrus); 914 } 915 catch (const sdbusplus::exception_t& e) 916 { 917 std::string msg = 918 "No VPD found for " + inventoryPath + ": " + e.what(); 919 addDebugData(msg); 920 921 // Just create the callout with empty FRU fields 922 callout = std::make_unique<src::Callout>( 923 CalloutPriority::high, locCode, fn, ccin, sn, mrus); 924 } 925 } 926 catch (const sdbusplus::exception_t& e) 927 { 928 std::string msg = "Could not get location code for " + inventoryPath + 929 ": " + e.what(); 930 addDebugData(msg); 931 932 // Don't add a callout in this case, because: 933 // 1) With how the inventory is primed, there is no case where 934 // a location code is expected to be missing. This implies 935 // the caller is passing in something invalid. 936 // 2) The addDebugData call above will put the passed in path into 937 // a user data section that can be seen by development for debug. 938 // 3) Even if we wanted to do a 'no_vpd_for_fru' sort of maint. 939 // procedure, we don't have a good way to indicate to the user 940 // anything about the intended callout (they won't see user data). 941 // 4) Creating a new standalone event log for this problem isn't 942 // possible from inside a PEL section. 943 } 944 945 if (callout) 946 { 947 createCalloutsObject(); 948 _callouts->addCallout(std::move(callout)); 949 } 950 } 951 952 std::vector<message::RegistryCallout> SRC::getRegistryCallouts( 953 const message::Entry& regEntry, const AdditionalData& additionalData, 954 const DataInterfaceBase& dataIface) 955 { 956 std::vector<message::RegistryCallout> registryCallouts; 957 958 if (regEntry.callouts) 959 { 960 std::vector<std::string> systemNames; 961 962 try 963 { 964 systemNames = dataIface.getSystemNames(); 965 } 966 catch (const std::exception& e) 967 { 968 // Compatible interface not available yet 969 } 970 971 try 972 { 973 registryCallouts = message::Registry::getCallouts( 974 regEntry.callouts.value(), systemNames, additionalData); 975 } 976 catch (const std::exception& e) 977 { 978 addDebugData(std::format( 979 "Error parsing PEL message registry callout JSON: {}", 980 e.what())); 981 } 982 } 983 984 return registryCallouts; 985 } 986 987 void SRC::addRegistryCallouts( 988 const std::vector<message::RegistryCallout>& callouts, 989 const DataInterfaceBase& dataIface, 990 std::optional<std::string> trustedSymbolicFRUInvPath) 991 { 992 try 993 { 994 for (const auto& callout : callouts) 995 { 996 addRegistryCallout(callout, dataIface, trustedSymbolicFRUInvPath); 997 998 // Only the first callout gets the inventory path 999 if (trustedSymbolicFRUInvPath) 1000 { 1001 trustedSymbolicFRUInvPath = std::nullopt; 1002 } 1003 } 1004 } 1005 catch (const std::exception& e) 1006 { 1007 std::string msg = 1008 "Error parsing PEL message registry callout JSON: "s + e.what(); 1009 addDebugData(msg); 1010 } 1011 } 1012 1013 void SRC::addRegistryCallout( 1014 const message::RegistryCallout& regCallout, 1015 const DataInterfaceBase& dataIface, 1016 const std::optional<std::string>& trustedSymbolicFRUInvPath) 1017 { 1018 std::unique_ptr<src::Callout> callout; 1019 auto locCode = regCallout.locCode; 1020 bool locExpanded = true; 1021 1022 if (!locCode.empty()) 1023 { 1024 try 1025 { 1026 locCode = dataIface.expandLocationCode(locCode, 0); 1027 } 1028 catch (const std::exception& e) 1029 { 1030 auto msg = "Unable to expand location code " + locCode + ": " + 1031 e.what(); 1032 addDebugData(msg); 1033 locExpanded = false; 1034 } 1035 } 1036 1037 // Via the PEL values table, get the priority enum. 1038 // The schema will have validated the priority was a valid value. 1039 auto priorityIt = 1040 pv::findByName(regCallout.priority, pv::calloutPriorityValues); 1041 assert(priorityIt != pv::calloutPriorityValues.end()); 1042 auto priority = 1043 static_cast<CalloutPriority>(std::get<pv::fieldValuePos>(*priorityIt)); 1044 1045 if (!regCallout.procedure.empty()) 1046 { 1047 // Procedure callout 1048 callout = std::make_unique<src::Callout>(priority, regCallout.procedure, 1049 src::CalloutValueType::raw); 1050 } 1051 else if (!regCallout.symbolicFRU.empty()) 1052 { 1053 // Symbolic FRU callout 1054 callout = std::make_unique<src::Callout>( 1055 priority, regCallout.symbolicFRU, locCode, false); 1056 } 1057 else if (!regCallout.symbolicFRUTrusted.empty()) 1058 { 1059 // Symbolic FRU with trusted location code callout 1060 bool trusted = false; 1061 1062 // Use the location code from the inventory path if there is one. 1063 if (trustedSymbolicFRUInvPath) 1064 { 1065 try 1066 { 1067 locCode = dataIface.getLocationCode(*trustedSymbolicFRUInvPath); 1068 trusted = true; 1069 } 1070 catch (const std::exception& e) 1071 { 1072 addDebugData( 1073 std::format("Could not get location code for {}: {}", 1074 *trustedSymbolicFRUInvPath, e.what())); 1075 locCode.clear(); 1076 } 1077 } 1078 1079 // Can only trust the location code if it isn't empty and is expanded. 1080 if (!locCode.empty() && locExpanded) 1081 { 1082 trusted = true; 1083 } 1084 1085 // The registry wants it to be trusted, but that requires a valid 1086 // location code for it to actually be. 1087 callout = std::make_unique<src::Callout>( 1088 priority, regCallout.symbolicFRUTrusted, locCode, trusted); 1089 } 1090 else 1091 { 1092 // A hardware callout 1093 1094 // If couldn't expand the location code, don't bother 1095 // looking up the inventory path. 1096 if (!locExpanded && !locCode.empty()) 1097 { 1098 addLocationCodeOnlyCallout(locCode, priority); 1099 return; 1100 } 1101 1102 std::vector<std::string> inventoryPaths; 1103 1104 try 1105 { 1106 // Get the inventory item from the unexpanded location code 1107 inventoryPaths = 1108 dataIface.getInventoryFromLocCode(regCallout.locCode, 0, false); 1109 } 1110 catch (const std::exception& e) 1111 { 1112 std::string msg = 1113 "Unable to get inventory path from location code: " + locCode + 1114 ": " + e.what(); 1115 addDebugData(msg); 1116 if (!locCode.empty()) 1117 { 1118 // Still add a callout with just the location code. 1119 addLocationCodeOnlyCallout(locCode, priority); 1120 } 1121 return; 1122 } 1123 1124 // Just use first path returned since they all point to the same FRU. 1125 addInventoryCallout(inventoryPaths[0], priority, locCode, dataIface); 1126 } 1127 1128 if (callout) 1129 { 1130 createCalloutsObject(); 1131 _callouts->addCallout(std::move(callout)); 1132 } 1133 } 1134 1135 void SRC::addDevicePathCallouts(const AdditionalData& additionalData, 1136 const DataInterfaceBase& dataIface) 1137 { 1138 std::vector<device_callouts::Callout> callouts; 1139 auto i2cBus = additionalData.getValue("CALLOUT_IIC_BUS"); 1140 auto i2cAddr = additionalData.getValue("CALLOUT_IIC_ADDR"); 1141 auto devPath = additionalData.getValue("CALLOUT_DEVICE_PATH"); 1142 1143 // A device callout contains either: 1144 // * CALLOUT_ERRNO, CALLOUT_DEVICE_PATH 1145 // * CALLOUT_ERRNO, CALLOUT_IIC_BUS, CALLOUT_IIC_ADDR 1146 // We don't care about the errno. 1147 1148 if (devPath) 1149 { 1150 try 1151 { 1152 callouts = device_callouts::getCallouts(*devPath, 1153 dataIface.getSystemNames()); 1154 } 1155 catch (const std::exception& e) 1156 { 1157 addDebugData(e.what()); 1158 callouts.clear(); 1159 } 1160 } 1161 else if (i2cBus && i2cAddr) 1162 { 1163 size_t bus; 1164 uint8_t address; 1165 1166 try 1167 { 1168 // If /dev/i2c- is prepended, remove it 1169 if (i2cBus->find("/dev/i2c-") != std::string::npos) 1170 { 1171 *i2cBus = i2cBus->substr(9); 1172 } 1173 1174 bus = stoul(*i2cBus, nullptr, 0); 1175 address = stoul(*i2cAddr, nullptr, 0); 1176 } 1177 catch (const std::exception& e) 1178 { 1179 std::string msg = 1180 "Invalid CALLOUT_IIC_BUS " + *i2cBus + " or CALLOUT_IIC_ADDR " + 1181 *i2cAddr + " in AdditionalData property"; 1182 addDebugData(msg); 1183 return; 1184 } 1185 1186 try 1187 { 1188 callouts = device_callouts::getI2CCallouts( 1189 bus, address, dataIface.getSystemNames()); 1190 } 1191 catch (const std::exception& e) 1192 { 1193 addDebugData(e.what()); 1194 callouts.clear(); 1195 } 1196 } 1197 1198 for (const auto& callout : callouts) 1199 { 1200 // The priority shouldn't be invalid, but check just in case. 1201 CalloutPriority priority = CalloutPriority::high; 1202 1203 if (!callout.priority.empty()) 1204 { 1205 auto p = pel_values::findByValue( 1206 static_cast<uint32_t>(callout.priority[0]), 1207 pel_values::calloutPriorityValues); 1208 1209 if (p != pel_values::calloutPriorityValues.end()) 1210 { 1211 priority = static_cast<CalloutPriority>(callout.priority[0]); 1212 } 1213 else 1214 { 1215 auto msg = 1216 std::string{ 1217 "Invalid priority found in dev callout JSON: "} + 1218 callout.priority[0]; 1219 addDebugData(msg); 1220 } 1221 } 1222 1223 std::optional<std::string> locCode; 1224 1225 try 1226 { 1227 locCode = dataIface.expandLocationCode(callout.locationCode, 0); 1228 } 1229 catch (const std::exception& e) 1230 { 1231 auto msg = std::format("Unable to expand location code {}: {}", 1232 callout.locationCode, e.what()); 1233 addDebugData(msg); 1234 1235 // Add the callout with just the unexpanded location code. 1236 addLocationCodeOnlyCallout(callout.locationCode, priority); 1237 continue; 1238 } 1239 1240 try 1241 { 1242 auto inventoryPaths = dataIface.getInventoryFromLocCode( 1243 callout.locationCode, 0, false); 1244 1245 // Just use first path returned since they all 1246 // point to the same FRU. 1247 addInventoryCallout(inventoryPaths[0], priority, locCode, 1248 dataIface); 1249 } 1250 catch (const std::exception& e) 1251 { 1252 std::string msg = 1253 "Unable to get inventory path from location code: " + 1254 callout.locationCode + ": " + e.what(); 1255 addDebugData(msg); 1256 // Add the callout with just the location code. 1257 addLocationCodeOnlyCallout(callout.locationCode, priority); 1258 continue; 1259 } 1260 1261 // Until the code is there to convert these MRU value strings to 1262 // the official MRU values in the callout objects, just store 1263 // the MRU name in the debug UserData section. 1264 if (!callout.mru.empty()) 1265 { 1266 std::string msg = "MRU: " + callout.mru; 1267 addDebugData(msg); 1268 } 1269 1270 // getCallouts() may have generated some debug data it stored 1271 // in a callout object. Save it as well. 1272 if (!callout.debug.empty()) 1273 { 1274 addDebugData(callout.debug); 1275 } 1276 } 1277 } 1278 1279 void SRC::addJSONCallouts(const nlohmann::json& jsonCallouts, 1280 const DataInterfaceBase& dataIface) 1281 { 1282 if (jsonCallouts.empty()) 1283 { 1284 return; 1285 } 1286 1287 if (!jsonCallouts.is_array()) 1288 { 1289 addDebugData("Callout JSON isn't an array"); 1290 return; 1291 } 1292 1293 for (const auto& callout : jsonCallouts) 1294 { 1295 try 1296 { 1297 addJSONCallout(callout, dataIface); 1298 } 1299 catch (const std::exception& e) 1300 { 1301 addDebugData(std::format( 1302 "Failed extracting callout data from JSON: {}", e.what())); 1303 } 1304 } 1305 } 1306 1307 void SRC::addJSONCallout(const nlohmann::json& jsonCallout, 1308 const DataInterfaceBase& dataIface) 1309 { 1310 auto priority = getPriorityFromJSON(jsonCallout); 1311 std::string locCode; 1312 std::string unexpandedLocCode; 1313 std::unique_ptr<src::Callout> callout; 1314 1315 // Expand the location code if it's there 1316 if (jsonCallout.contains("LocationCode")) 1317 { 1318 unexpandedLocCode = jsonCallout.at("LocationCode").get<std::string>(); 1319 1320 try 1321 { 1322 locCode = dataIface.expandLocationCode(unexpandedLocCode, 0); 1323 } 1324 catch (const std::exception& e) 1325 { 1326 addDebugData(std::format("Unable to expand location code {}: {}", 1327 unexpandedLocCode, e.what())); 1328 // Use the value from the JSON so at least there's something 1329 locCode = unexpandedLocCode; 1330 } 1331 } 1332 1333 // Create either a procedure, symbolic FRU, or normal FRU callout. 1334 if (jsonCallout.contains("Procedure")) 1335 { 1336 auto procedure = jsonCallout.at("Procedure").get<std::string>(); 1337 1338 // If it's the registry name instead of the raw name, convert. 1339 if (pv::maintenanceProcedures.find(procedure) != 1340 pv::maintenanceProcedures.end()) 1341 { 1342 procedure = pv::maintenanceProcedures.at(procedure); 1343 } 1344 1345 callout = std::make_unique<src::Callout>( 1346 static_cast<CalloutPriority>(priority), procedure, 1347 src::CalloutValueType::raw); 1348 } 1349 else if (jsonCallout.contains("SymbolicFRU")) 1350 { 1351 auto fru = jsonCallout.at("SymbolicFRU").get<std::string>(); 1352 1353 // If it's the registry name instead of the raw name, convert. 1354 if (pv::symbolicFRUs.find(fru) != pv::symbolicFRUs.end()) 1355 { 1356 fru = pv::symbolicFRUs.at(fru); 1357 } 1358 1359 bool trusted = false; 1360 if (jsonCallout.contains("TrustedLocationCode") && !locCode.empty()) 1361 { 1362 trusted = jsonCallout.at("TrustedLocationCode").get<bool>(); 1363 } 1364 1365 callout = std::make_unique<src::Callout>( 1366 static_cast<CalloutPriority>(priority), fru, 1367 src::CalloutValueType::raw, locCode, trusted); 1368 } 1369 else 1370 { 1371 // A hardware FRU 1372 std::string inventoryPath; 1373 std::vector<src::MRU::MRUCallout> mrus; 1374 1375 if (jsonCallout.contains("InventoryPath")) 1376 { 1377 inventoryPath = jsonCallout.at("InventoryPath").get<std::string>(); 1378 } 1379 else 1380 { 1381 if (unexpandedLocCode.empty()) 1382 { 1383 throw std::runtime_error{"JSON callout needs either an " 1384 "inventory path or location code"}; 1385 } 1386 1387 try 1388 { 1389 auto inventoryPaths = dataIface.getInventoryFromLocCode( 1390 unexpandedLocCode, 0, false); 1391 // Just use first path returned since they all 1392 // point to the same FRU. 1393 inventoryPath = inventoryPaths[0]; 1394 } 1395 catch (const std::exception& e) 1396 { 1397 addDebugData(std::format("Unable to get inventory path from " 1398 "location code: {}: {}", 1399 unexpandedLocCode, e.what())); 1400 addLocationCodeOnlyCallout(locCode, priority); 1401 return; 1402 } 1403 } 1404 1405 if (jsonCallout.contains("MRUs")) 1406 { 1407 mrus = getMRUsFromJSON(jsonCallout.at("MRUs")); 1408 } 1409 1410 // If the location code was also passed in, use that here too 1411 // so addInventoryCallout doesn't have to look it up. 1412 std::optional<std::string> lc; 1413 if (!locCode.empty()) 1414 { 1415 lc = locCode; 1416 } 1417 1418 addInventoryCallout(inventoryPath, priority, lc, dataIface, mrus); 1419 1420 if (jsonCallout.contains("Deconfigured")) 1421 { 1422 if (jsonCallout.at("Deconfigured").get<bool>()) 1423 { 1424 setErrorStatusFlag(ErrorStatusFlags::deconfigured); 1425 } 1426 } 1427 1428 if (jsonCallout.contains("Guarded")) 1429 { 1430 if (jsonCallout.at("Guarded").get<bool>()) 1431 { 1432 setErrorStatusFlag(ErrorStatusFlags::guarded); 1433 } 1434 } 1435 } 1436 1437 if (callout) 1438 { 1439 createCalloutsObject(); 1440 _callouts->addCallout(std::move(callout)); 1441 } 1442 } 1443 1444 CalloutPriority SRC::getPriorityFromJSON(const nlohmann::json& json) 1445 { 1446 // Looks like: 1447 // { 1448 // "Priority": "H" 1449 // } 1450 auto p = json.at("Priority").get<std::string>(); 1451 if (p.empty()) 1452 { 1453 throw std::runtime_error{"Priority field in callout is empty"}; 1454 } 1455 1456 auto priority = static_cast<CalloutPriority>(p.front()); 1457 1458 // Validate it 1459 auto priorityIt = pv::findByValue(static_cast<uint32_t>(priority), 1460 pv::calloutPriorityValues); 1461 if (priorityIt == pv::calloutPriorityValues.end()) 1462 { 1463 throw std::runtime_error{ 1464 std::format("Invalid priority '{}' found in JSON callout", p)}; 1465 } 1466 1467 return priority; 1468 } 1469 1470 std::vector<src::MRU::MRUCallout> SRC::getMRUsFromJSON( 1471 const nlohmann::json& mruJSON) 1472 { 1473 std::vector<src::MRU::MRUCallout> mrus; 1474 1475 // Looks like: 1476 // [ 1477 // { 1478 // "ID": 100, 1479 // "Priority": "H" 1480 // } 1481 // ] 1482 if (!mruJSON.is_array()) 1483 { 1484 addDebugData("MRU callout JSON is not an array"); 1485 return mrus; 1486 } 1487 1488 for (const auto& mruCallout : mruJSON) 1489 { 1490 try 1491 { 1492 auto priority = getPriorityFromJSON(mruCallout); 1493 auto id = mruCallout.at("ID").get<uint32_t>(); 1494 1495 src::MRU::MRUCallout mru{static_cast<uint32_t>(priority), id}; 1496 mrus.push_back(std::move(mru)); 1497 } 1498 catch (const std::exception& e) 1499 { 1500 addDebugData(std::format("Invalid MRU entry in JSON: {}: {}", 1501 mruCallout.dump(), e.what())); 1502 } 1503 } 1504 1505 return mrus; 1506 } 1507 1508 std::vector<uint8_t> SRC::getSrcStruct() 1509 { 1510 std::vector<uint8_t> data; 1511 Stream stream{data}; 1512 1513 //------ Ref section 4.3 in PEL doc--- 1514 //------ SRC Structure 40 bytes------- 1515 // Byte-0 | Byte-1 | Byte-2 | Byte-3 | 1516 // ----------------------------------- 1517 // 02 | 08 | 00 | 09 | ==> Header 1518 // 00 | 00 | 00 | 48 | ==> Header 1519 // 00 | 00 | 00 | 00 | ==> Hex data word-2 1520 // 00 | 00 | 00 | 00 | ==> Hex data word-3 1521 // 00 | 00 | 00 | 00 | ==> Hex data word-4 1522 // 20 | 00 | 00 | 00 | ==> Hex data word-5 1523 // 00 | 00 | 00 | 00 | ==> Hex data word-6 1524 // 00 | 00 | 00 | 00 | ==> Hex data word-7 1525 // 00 | 00 | 00 | 00 | ==> Hex data word-8 1526 // 00 | 00 | 00 | 00 | ==> Hex data word-9 1527 // ----------------------------------- 1528 // ASCII string - 8 bytes | 1529 // ----------------------------------- 1530 // ASCII space NULL - 24 bytes | 1531 // ----------------------------------- 1532 //_size = Base SRC struct: 8 byte header + hex data section + ASCII string 1533 1534 uint8_t flags = (_flags | postOPPanel); 1535 1536 stream << _version << flags << _reserved1B << _wordCount << _reserved2B 1537 << _size; 1538 1539 for (auto& word : _hexData) 1540 { 1541 stream << word; 1542 } 1543 1544 _asciiString->flatten(stream); 1545 1546 return data; 1547 } 1548 1549 void SRC::setProgressCode(const DataInterfaceBase& dataIface) 1550 { 1551 std::vector<uint8_t> progressSRC; 1552 1553 try 1554 { 1555 progressSRC = dataIface.getRawProgressSRC(); 1556 } 1557 catch (const std::exception& e) 1558 { 1559 lg2::error("Error getting progress code: {ERROR}", "ERROR", e); 1560 return; 1561 } 1562 1563 _hexData[2] = getProgressCode(progressSRC); 1564 } 1565 1566 uint32_t SRC::getProgressCode(std::vector<uint8_t>& rawProgressSRC) 1567 { 1568 uint32_t progressCode = 0; 1569 1570 // A valid progress SRC is at least 72 bytes 1571 if (rawProgressSRC.size() < 72) 1572 { 1573 return progressCode; 1574 } 1575 1576 try 1577 { 1578 // The ASCII string field in progress SRCs starts at offset 40. 1579 // Take the first 8 characters to put in the uint32: 1580 // "CC009189" -> 0xCC009189 1581 Stream stream{rawProgressSRC, 40}; 1582 src::AsciiString aString{stream}; 1583 auto progressCodeString = aString.get().substr(0, 8); 1584 1585 if (std::all_of(progressCodeString.begin(), progressCodeString.end(), 1586 [](char c) { 1587 return std::isxdigit(static_cast<unsigned char>(c)); 1588 })) 1589 { 1590 progressCode = std::stoul(progressCodeString, nullptr, 16); 1591 } 1592 } 1593 catch (const std::exception& e) 1594 {} 1595 1596 return progressCode; 1597 } 1598 1599 } // namespace pels 1600 } // namespace openpower 1601