1 extern "C" 2 { 3 #include <libpdbg.h> 4 } 5 6 #include "create_pel.hpp" 7 #include "dump_utils.hpp" 8 #include "extensions/phal/common_utils.hpp" 9 #include "phal_error.hpp" 10 #include "util.hpp" 11 12 #include <attributes_info.H> 13 #include <libekb.H> 14 #include <libphal.H> 15 16 #include <nlohmann/json.hpp> 17 #include <phosphor-logging/elog.hpp> 18 19 #include <algorithm> 20 #include <cstdlib> 21 #include <cstring> 22 #include <format> 23 #include <iomanip> 24 #include <list> 25 #include <map> 26 #include <sstream> 27 #include <string> 28 29 namespace openpower 30 { 31 namespace phal 32 { 33 using namespace phosphor::logging; 34 using namespace openpower::phal::exception; 35 using Severity = sdbusplus::xyz::openbmc_project::Logging::server::Entry::Level; 36 37 /** 38 * Used to pass buffer to pdbg callback api to get required target 39 * data (attributes) based on given data (attribute). 40 */ 41 struct TargetInfo 42 { 43 ATTR_PHYS_BIN_PATH_Type physBinPath; 44 ATTR_LOCATION_CODE_Type locationCode; 45 ATTR_PHYS_DEV_PATH_Type physDevPath; 46 ATTR_MRU_ID_Type mruId; 47 48 bool deconfigure; 49 50 TargetInfo() 51 { 52 memset(&physBinPath, '\0', sizeof(physBinPath)); 53 memset(&locationCode, '\0', sizeof(locationCode)); 54 memset(&physDevPath, '\0', sizeof(physDevPath)); 55 mruId = 0; 56 deconfigure = false; 57 } 58 }; 59 60 /** 61 * Used to return in callback function which are used to get 62 * physical path value and it binary format value. 63 * 64 * The value for constexpr defined based on pdbg_target_traverse function usage. 65 */ 66 constexpr int continueTgtTraversal = 0; 67 constexpr int requireAttrFound = 1; 68 constexpr int requireAttrNotFound = 2; 69 70 /** 71 * @brief Used to get target location code from phal device tree 72 * 73 * @param[in] target current device tree target 74 * @param[out] appPrivData used for accessing|storing from|to application 75 * 76 * @return 0 to continue traverse, non-zero to stop traverse 77 */ 78 int pdbgCallbackToGetTgtReqAttrsVal(struct pdbg_target* target, 79 void* appPrivData) 80 { 81 using namespace openpower::phal::pdbg; 82 83 TargetInfo* targetInfo = static_cast<TargetInfo*>(appPrivData); 84 85 ATTR_PHYS_BIN_PATH_Type physBinPath; 86 /** 87 * TODO: Issue: phal/pdata#16 88 * Should not use direct pdbg api to read attribute. Need to use DT_GET_PROP 89 * macro for bmc app's and this will call libdt-api api but, it will print 90 * "pdbg_target_get_attribute failed" trace if attribute is not found and 91 * this callback will call recursively by using pdbg_target_traverse() until 92 * find expected attribute based on return code from this callback. Because, 93 * need to do target iteration to get actual attribute (ATTR_PHYS_BIN_PATH) 94 * value when device tree target info doesn't know to read attribute from 95 * device tree. So, Due to this error trace user will get confusion while 96 * looking traces. Hence using pdbg api to avoid trace until libdt-api 97 * provides log level setup. 98 */ 99 if (!pdbg_target_get_attribute( 100 target, "ATTR_PHYS_BIN_PATH", 101 std::stoi(dtAttr::fapi2::ATTR_PHYS_BIN_PATH_Spec), 102 dtAttr::fapi2::ATTR_PHYS_BIN_PATH_ElementCount, physBinPath)) 103 { 104 return continueTgtTraversal; 105 } 106 107 if (std::memcmp(physBinPath, targetInfo->physBinPath, 108 sizeof(physBinPath)) != 0) 109 { 110 return continueTgtTraversal; 111 } 112 113 // Found Target, now collect the required attributes associated to the 114 // target. Incase of any attribute read failure, initialize the data with 115 // default value. 116 try 117 { 118 // Get location code information 119 openpower::phal::pdbg::getLocationCode(target, 120 targetInfo->locationCode); 121 } 122 catch (const std::exception& e) 123 { 124 log<level::ERR>(std::format("getLocationCode({}): Exception({})", 125 pdbg_target_path(target), e.what()) 126 .c_str()); 127 } 128 129 if (DT_GET_PROP(ATTR_PHYS_DEV_PATH, target, targetInfo->physDevPath)) 130 { 131 log<level::ERR>( 132 std::format("Could not read({}) PHYS_DEV_PATH attribute", 133 pdbg_target_path(target)) 134 .c_str()); 135 } 136 137 if (DT_GET_PROP(ATTR_MRU_ID, target, targetInfo->mruId)) 138 { 139 log<level::ERR>(std::format("Could not read({}) ATTR_MRU_ID attribute", 140 pdbg_target_path(target)) 141 .c_str()); 142 } 143 144 return requireAttrFound; 145 } 146 147 /** 148 * @brief Used to get target info (attributes data) 149 * 150 * To get target required attributes value using another attribute value 151 * ("PHYS_BIN_PATH" which is present in same target attributes list) by using 152 * "ipdbg_target_traverse" api because, here we have attribute value only and 153 * doesn't have respective device tree target info to get required attributes 154 * values from it attributes list. 155 * 156 * @param[in] physBinPath to pass PHYS_BIN_PATH value 157 * @param[out] targetInfo to pas buufer to fill with required attributes 158 * 159 * @return true on success otherwise false 160 */ 161 bool getTgtReqAttrsVal(const std::vector<uint8_t>& physBinPath, 162 TargetInfo& targetInfo) 163 { 164 std::memcpy(&targetInfo.physBinPath, physBinPath.data(), 165 sizeof(targetInfo.physBinPath)); 166 167 int ret = pdbg_target_traverse(NULL, pdbgCallbackToGetTgtReqAttrsVal, 168 &targetInfo); 169 if (ret == 0) 170 { 171 std::string fmt; 172 for (auto value : targetInfo.physBinPath) 173 { 174 fmt += std::format("{:02X} ", value); 175 } 176 177 log<level::ERR>(std::format("Given ATTR_PHYS_BIN_PATH value {} " 178 "not found in phal device tree", 179 fmt) 180 .c_str()); 181 return false; 182 } 183 else if (ret == requireAttrNotFound) 184 { 185 return false; 186 } 187 188 return true; 189 } 190 } // namespace phal 191 192 namespace pel 193 { 194 using namespace phosphor::logging; 195 196 namespace detail 197 { 198 using json = nlohmann::json; 199 200 // keys need to be unique so using counter value to generate unique key 201 static int counter = 0; 202 203 // list of debug traces 204 static std::vector<std::pair<std::string, std::string>> traceLog; 205 206 /** 207 * @brief Process platform realted boot failure 208 * 209 * @param[in] errInfo - error details 210 */ 211 static void processPlatBootError(const ipl_error_info& errInfo); 212 213 void processLogTraceCallback(void*, const char* fmt, va_list ap) 214 { 215 va_list vap; 216 va_copy(vap, ap); 217 std::vector<char> logData(1 + std::vsnprintf(nullptr, 0, fmt, ap)); 218 std::vsnprintf(logData.data(), logData.size(), fmt, vap); 219 va_end(vap); 220 std::string logstr(logData.begin(), logData.end()); 221 222 log<level::INFO>(logstr.c_str()); 223 224 char timeBuf[80]; 225 time_t t = time(0); 226 tm myTm{}; 227 gmtime_r(&t, &myTm); 228 strftime(timeBuf, 80, "%Y-%m-%d %H:%M:%S", &myTm); 229 230 // key values need to be unique for PEL 231 // TODO #openbmc/dev/issues/1563 232 // If written to Json no need to worry about unique KEY 233 std::stringstream str; 234 str << std::setfill('0'); 235 str << "LOG" << std::setw(3) << counter; 236 str << " " << timeBuf; 237 traceLog.emplace_back(std::make_pair(str.str(), std::move(logstr))); 238 counter++; 239 } 240 241 /** 242 * @brief GET PEL priority from pHAL priority 243 * 244 * The pHAL callout priority is in different format than PEL format 245 * so, this api is used to return current phal supported priority into 246 * PEL expected format. 247 * 248 * @param[in] phalPriority used to pass phal priority format string 249 * 250 * @return pel priority format string else empty if failure 251 * 252 * @note For "NONE" returning "L" (LOW) 253 */ 254 static std::string getPelPriority(const std::string& phalPriority) 255 { 256 const std::map<std::string, std::string> priorityMap = { 257 {"HIGH", "H"}, {"MEDIUM", "M"}, {"LOW", "L"}, {"NONE", "L"}}; 258 259 auto it = priorityMap.find(phalPriority); 260 if (it == priorityMap.end()) 261 { 262 log<level::ERR>(std::format("Unsupported phal priority({}) is given " 263 "to get pel priority format", 264 phalPriority) 265 .c_str()); 266 return "H"; 267 } 268 269 return it->second; 270 } 271 272 /** 273 * @brief Helper function to create PEL for non functional boot 274 * processor related failure. 275 * This function adds the BMC code callout as priority 1 to fix 276 * devtree related software issue. Incase the issue still persist 277 * after reboot recommend to replacing the primary processor. 278 */ 279 void processNonFunctionalBootProc() 280 { 281 json jsonCalloutDataList; 282 json jsonProcedCallout; 283 // Add BMC code callout 284 jsonProcedCallout["Procedure"] = "BMC0001"; 285 jsonProcedCallout["Priority"] = "H"; 286 jsonCalloutDataList.emplace_back(std::move(jsonProcedCallout)); 287 288 // get primary processor 289 struct pdbg_target* procTarget; 290 pdbg_for_each_class_target("proc", procTarget) 291 { 292 if (openpower::phal::isPrimaryProc(procTarget)) 293 break; 294 procTarget = nullptr; 295 } 296 // check valid primary processor is available 297 if (procTarget == nullptr) 298 { 299 log<level::ERR>( 300 "processNonFunctionalBootProc: fail to get primary processor"); 301 } 302 else 303 { 304 try 305 { 306 ATTR_LOCATION_CODE_Type locationCode = {'\0'}; 307 // Get location code information 308 openpower::phal::pdbg::getLocationCode(procTarget, locationCode); 309 json jsonProcCallout; 310 jsonProcCallout["LocationCode"] = locationCode; 311 jsonProcCallout["Deconfigured"] = false; 312 jsonProcCallout["Guarded"] = false; 313 jsonProcCallout["Priority"] = "M"; 314 jsonCalloutDataList.emplace_back(std::move(jsonProcCallout)); 315 } 316 catch (const std::exception& e) 317 { 318 log<level::ERR>(std::format("getLocationCode({}): Exception({})", 319 pdbg_target_path(procTarget), e.what()) 320 .c_str()); 321 } 322 } 323 // Adding collected phal logs into PEL additional data 324 FFDCData pelAdditionalData; 325 for_each( 326 traceLog.begin(), traceLog.end(), 327 [&pelAdditionalData](std::pair<std::string, std::string>& ele) -> void { 328 pelAdditionalData.emplace_back(ele.first, ele.second); 329 }); 330 openpower::pel::createErrorPEL( 331 "org.open_power.PHAL.Error.NonFunctionalBootProc", jsonCalloutDataList, 332 pelAdditionalData, Severity::Error); 333 // reset trace log and exit 334 reset(); 335 } 336 337 /** 338 * @brief processClockInfoErrorHelper 339 * 340 * Creates informational PEL for spare clock failure 341 * 342 * @param[in] ffdc - FFDC data capturd by the HWP 343 * @param[in] ffdc_prefix - prefix string for logging the data. 344 */ 345 void processClockInfoErrorHelper(FFDC* ffdc, const std::string& ffdc_prefix) 346 { 347 try 348 { 349 log<level::INFO>( 350 std::format("processClockInfoErrorHelper: FFDC Message[{}]", 351 ffdc->message) 352 .c_str()); 353 354 // To store callouts details in json format as per pel expectation. 355 json jsonCalloutDataList; 356 jsonCalloutDataList = json::array(); 357 358 // To store phal trace and other additional data about ffdc. 359 FFDCData pelAdditionalData; 360 361 std::string keyWithPrefix(ffdc_prefix + "RC"); 362 // Adding hardware procedures return code details 363 pelAdditionalData.emplace_back(keyWithPrefix, ffdc->hwp_errorinfo.rc); 364 keyWithPrefix = ffdc_prefix + "RC_DESC"; 365 pelAdditionalData.emplace_back(keyWithPrefix, 366 ffdc->hwp_errorinfo.rc_desc); 367 368 // Adding hardware procedures required ffdc data for debug 369 for_each(ffdc->hwp_errorinfo.ffdcs_data.begin(), 370 ffdc->hwp_errorinfo.ffdcs_data.end(), 371 [&pelAdditionalData, &ffdc_prefix]( 372 std::pair<std::string, std::string>& ele) -> void { 373 std::string keyWithPrefix(ffdc_prefix + "FFDC_"); 374 keyWithPrefix.append(ele.first); 375 376 pelAdditionalData.emplace_back(keyWithPrefix, ele.second); 377 }); 378 // get clock position information 379 auto clk_pos = 0xFF; // Invalid position. 380 for (auto& hwCallout : ffdc->hwp_errorinfo.hwcallouts) 381 { 382 if ((hwCallout.hwid == "PROC_REF_CLOCK") || 383 (hwCallout.hwid == "PCI_REF_CLOCK")) 384 { 385 clk_pos = hwCallout.clkPos; 386 break; 387 } 388 } 389 390 // Adding CDG (Only deconfigure) targets details 391 for_each(ffdc->hwp_errorinfo.cdg_targets.begin(), 392 ffdc->hwp_errorinfo.cdg_targets.end(), 393 [&pelAdditionalData, &jsonCalloutDataList, 394 clk_pos](const CDG_Target& cdg_tgt) -> void { 395 json jsonCalloutData; 396 std::string pelPriority = "L"; 397 jsonCalloutData["Priority"] = pelPriority; // Not used 398 jsonCalloutData["SymbolicFRU"] = "REFCLK" + 399 std::to_string(clk_pos); 400 jsonCalloutData["Deconfigured"] = cdg_tgt.deconfigure; 401 jsonCalloutData["EntityPath"] = cdg_tgt.target_entity_path; 402 jsonCalloutDataList.emplace_back(jsonCalloutData); 403 }); 404 405 // Adding collected phal logs into PEL additional data 406 for_each(traceLog.begin(), traceLog.end(), 407 [&pelAdditionalData]( 408 std::pair<std::string, std::string>& ele) -> void { 409 pelAdditionalData.emplace_back(ele.first, ele.second); 410 }); 411 412 openpower::pel::createErrorPEL("org.open_power.PHAL.Error.SpareClock", 413 jsonCalloutDataList, pelAdditionalData, 414 Severity::Informational); 415 } 416 catch (const std::exception& ex) 417 { 418 reset(); 419 throw ex; 420 } 421 reset(); 422 } 423 424 void processIplErrorCallback(const ipl_error_info& errInfo) 425 { 426 log<level::INFO>( 427 std::format("processIplErrorCallback: Error type({})", 428 static_cast<std::underlying_type<ipl_error_type>::type>( 429 errInfo.type)) 430 .c_str()); 431 432 switch (errInfo.type) 433 { 434 case IPL_ERR_OK: 435 // reset trace log and exit 436 reset(); 437 break; 438 case IPL_ERR_SBE_BOOT: 439 case IPL_ERR_SBE_CHIPOP: 440 // handle SBE related failures. 441 processSbeBootError(); 442 break; 443 case IPL_ERR_HWP: 444 // Handle hwp failure 445 processBootError(false); 446 break; 447 case IPL_ERR_PLAT: 448 processPlatBootError(errInfo); 449 break; 450 case IPL_ERR_PRI_PROC_NON_FUNC: 451 // Handle non functional boot processor error. 452 processNonFunctionalBootProc(); 453 break; 454 case IPL_ERR_GUARD_PARTITION_ACCESS: 455 processGuardPartitionAccessError(); 456 break; 457 default: 458 createPEL("org.open_power.PHAL.Error.Boot"); 459 // reset trace log and exit 460 reset(); 461 break; 462 } 463 } 464 465 /** 466 * @brief addPlanarCallout 467 * 468 * This function will add a json for planar callout in the input json list. 469 * The caller can pass this json list into createErrorPEL to apply the callout. 470 * 471 * @param[in,out] jsonCalloutDataList - json list where callout json will be 472 * emplaced 473 * @param[in] priority - string indicating priority. 474 */ 475 static void addPlanarCallout(json& jsonCalloutDataList, 476 const std::string& priority) 477 { 478 json jsonCalloutData; 479 480 // Inventory path for planar 481 jsonCalloutData["InventoryPath"] = 482 "/xyz/openbmc_project/inventory/system/chassis/motherboard"; 483 jsonCalloutData["Deconfigured"] = false; 484 jsonCalloutData["Guarded"] = false; 485 jsonCalloutData["Priority"] = priority; 486 487 jsonCalloutDataList.emplace_back(jsonCalloutData); 488 } 489 490 /** 491 * @brief processPoweroffError 492 * 493 * Creates informational PEL for the PLAT/HWP error occured during poweroff 494 * 495 * Not adding callouts from FFDC as the hardware errors in the poweroff path 496 * should be non-visible. so that we don't throw out extraneous callouts for 497 * power errors or because the CEC is just not in an expected state. 498 * 499 * @param[in] ffdc - FFDC data capturd by the HWP 500 * @param[in] ffdc_prefix - prefix string for logging the data. 501 */ 502 503 void processPoweroffError(FFDC* ffdc, const std::string& ffdc_prefix) 504 { 505 try 506 { 507 log<level::INFO>( 508 std::format("processPoweroffError: Message[{}]", ffdc->message) 509 .c_str()); 510 511 // To store phal trace and other additional data about ffdc. 512 FFDCData pelAdditionalData; 513 514 if (ffdc->ffdc_type == FFDC_TYPE_HWP) 515 { 516 std::string keyWithPrefix(ffdc_prefix + "RC"); 517 // Adding hardware procedures return code details 518 pelAdditionalData.emplace_back(keyWithPrefix, 519 ffdc->hwp_errorinfo.rc); 520 keyWithPrefix = ffdc_prefix + "RC_DESC"; 521 pelAdditionalData.emplace_back(keyWithPrefix, 522 ffdc->hwp_errorinfo.rc_desc); 523 } 524 else if ((ffdc->ffdc_type != FFDC_TYPE_NONE) && 525 (ffdc->ffdc_type != FFDC_TYPE_UNSUPPORTED)) 526 { 527 log<level::ERR>( 528 std::format("Unsupported phal FFDC type to create PEL. " 529 "MSG: {}", 530 ffdc->message) 531 .c_str()); 532 } 533 534 // Adding collected phal logs into PEL additional data 535 for_each(traceLog.begin(), traceLog.end(), 536 [&pelAdditionalData]( 537 std::pair<std::string, std::string>& ele) -> void { 538 pelAdditionalData.emplace_back(ele.first, ele.second); 539 }); 540 541 openpower::pel::createErrorPEL("org.open_power.PHAL.Error.Boot", {}, 542 pelAdditionalData, 543 Severity::Informational); 544 } 545 catch (const std::exception& ex) 546 { 547 reset(); 548 throw ex; 549 } 550 reset(); 551 } 552 553 void processBootErrorHelper(FFDC* ffdc, const std::string& ffdc_prefix) 554 { 555 log<level::INFO>("processBootErrorHelper "); 556 try 557 { 558 log<level::INFO>( 559 std::format("PHAL FFDC: Return Message[{}]", ffdc->message) 560 .c_str()); 561 562 // Special handling for spare clock related errors. 563 if (ffdc->ffdc_type == FFDC_TYPE_SPARE_CLOCK_INFO) 564 { 565 processClockInfoErrorHelper(ffdc, ffdc_prefix); 566 return; 567 } 568 // To store callouts details in json format as per pel expectation. 569 json jsonCalloutDataList; 570 jsonCalloutDataList = json::array(); 571 572 // To store phal trace and other additional data about ffdc. 573 FFDCData pelAdditionalData; 574 575 if (ffdc->ffdc_type == FFDC_TYPE_HWP) 576 { 577 std::string keyWithPrefix(ffdc_prefix + "RC"); 578 // Adding hardware procedures return code details 579 pelAdditionalData.emplace_back(keyWithPrefix, 580 ffdc->hwp_errorinfo.rc); 581 keyWithPrefix = ffdc_prefix + "RC_DESC"; 582 pelAdditionalData.emplace_back(keyWithPrefix, 583 ffdc->hwp_errorinfo.rc_desc); 584 585 // Adding hardware procedures required ffdc data for debug 586 for_each(ffdc->hwp_errorinfo.ffdcs_data.begin(), 587 ffdc->hwp_errorinfo.ffdcs_data.end(), 588 [&pelAdditionalData, &ffdc_prefix]( 589 std::pair<std::string, std::string>& ele) -> void { 590 std::string keyWithPrefix(ffdc_prefix + "FFDC_"); 591 keyWithPrefix.append(ele.first); 592 593 pelAdditionalData.emplace_back(keyWithPrefix, 594 ele.second); 595 }); 596 597 // Adding hardware callout details 598 int calloutCount = 0; 599 for_each( 600 ffdc->hwp_errorinfo.hwcallouts.begin(), 601 ffdc->hwp_errorinfo.hwcallouts.end(), 602 [&pelAdditionalData, &calloutCount, &jsonCalloutDataList, 603 &ffdc_prefix](const HWCallout& hwCallout) -> void { 604 calloutCount++; 605 std::stringstream keyPrefix; 606 keyPrefix << ffdc_prefix << "HW_CO_" << std::setfill('0') 607 << std::setw(2) << calloutCount << "_"; 608 609 pelAdditionalData.emplace_back( 610 std::string(keyPrefix.str()).append("HW_ID"), 611 hwCallout.hwid); 612 613 pelAdditionalData.emplace_back( 614 std::string(keyPrefix.str()).append("PRIORITY"), 615 hwCallout.callout_priority); 616 617 // Log target details only if entity path is 618 // available. For example target entity path will not 619 // be available for non-hwp clock failure. 620 if (!hwCallout.target_entity_path.empty()) 621 { 622 phal::TargetInfo targetInfo; 623 phal::getTgtReqAttrsVal(hwCallout.target_entity_path, 624 targetInfo); 625 626 std::string locationCode = 627 std::string(targetInfo.locationCode); 628 pelAdditionalData.emplace_back( 629 std::string(keyPrefix.str()).append("LOC_CODE"), 630 locationCode); 631 632 std::string physPath = 633 std::string(targetInfo.physDevPath); 634 pelAdditionalData.emplace_back( 635 std::string(keyPrefix.str()).append("PHYS_PATH"), 636 physPath); 637 } 638 639 pelAdditionalData.emplace_back( 640 std::string(keyPrefix.str()).append("CLK_POS"), 641 std::to_string(hwCallout.clkPos)); 642 643 pelAdditionalData.emplace_back( 644 std::string(keyPrefix.str()).append("CALLOUT_PLANAR"), 645 (hwCallout.isPlanarCallout == true ? "true" : "false")); 646 647 std::string pelPriority = 648 getPelPriority(hwCallout.callout_priority); 649 650 if (hwCallout.isPlanarCallout) 651 { 652 addPlanarCallout(jsonCalloutDataList, pelPriority); 653 } 654 }); 655 656 // Adding CDG (callout, deconfigure and guard) targets details 657 calloutCount = 0; 658 for_each( 659 ffdc->hwp_errorinfo.cdg_targets.begin(), 660 ffdc->hwp_errorinfo.cdg_targets.end(), 661 [&pelAdditionalData, &calloutCount, &jsonCalloutDataList, 662 &ffdc_prefix](const CDG_Target& cdg_tgt) -> void { 663 calloutCount++; 664 std::stringstream keyPrefix; 665 keyPrefix << ffdc_prefix << "CDG_TGT_" << std::setfill('0') 666 << std::setw(2) << calloutCount << "_"; 667 668 phal::TargetInfo targetInfo; 669 targetInfo.deconfigure = cdg_tgt.deconfigure; 670 671 phal::getTgtReqAttrsVal(cdg_tgt.target_entity_path, 672 targetInfo); 673 674 std::string locationCode = 675 std::string(targetInfo.locationCode); 676 pelAdditionalData.emplace_back( 677 std::string(keyPrefix.str()).append("LOC_CODE"), 678 locationCode); 679 std::string physPath = std::string(targetInfo.physDevPath); 680 pelAdditionalData.emplace_back( 681 std::string(keyPrefix.str()).append("PHYS_PATH"), 682 physPath); 683 684 pelAdditionalData.emplace_back( 685 std::string(keyPrefix.str()).append("CO_REQ"), 686 (cdg_tgt.callout == true ? "true" : "false")); 687 688 pelAdditionalData.emplace_back( 689 std::string(keyPrefix.str()).append("CO_PRIORITY"), 690 cdg_tgt.callout_priority); 691 692 pelAdditionalData.emplace_back( 693 std::string(keyPrefix.str()).append("DECONF_REQ"), 694 (cdg_tgt.deconfigure == true ? "true" : "false")); 695 696 pelAdditionalData.emplace_back( 697 std::string(keyPrefix.str()).append("GUARD_REQ"), 698 (cdg_tgt.guard == true ? "true" : "false")); 699 700 pelAdditionalData.emplace_back( 701 std::string(keyPrefix.str()).append("GUARD_TYPE"), 702 cdg_tgt.guard_type); 703 704 json jsonCalloutData; 705 jsonCalloutData["LocationCode"] = locationCode; 706 std::string pelPriority = 707 getPelPriority(cdg_tgt.callout_priority); 708 jsonCalloutData["Priority"] = pelPriority; 709 710 if (targetInfo.mruId != 0) 711 { 712 jsonCalloutData["MRUs"] = json::array({ 713 {{"ID", targetInfo.mruId}, 714 {"Priority", pelPriority}}, 715 }); 716 } 717 jsonCalloutData["Deconfigured"] = cdg_tgt.deconfigure; 718 jsonCalloutData["Guarded"] = cdg_tgt.guard; 719 jsonCalloutData["GuardType"] = cdg_tgt.guard_type; 720 jsonCalloutData["EntityPath"] = cdg_tgt.target_entity_path; 721 722 jsonCalloutDataList.emplace_back(jsonCalloutData); 723 }); 724 // Adding procedure callout 725 calloutCount = 0; 726 for_each( 727 ffdc->hwp_errorinfo.procedures_callout.begin(), 728 ffdc->hwp_errorinfo.procedures_callout.end(), 729 [&pelAdditionalData, &calloutCount, &jsonCalloutDataList, 730 &ffdc_prefix](const ProcedureCallout& procCallout) -> void { 731 calloutCount++; 732 std::stringstream keyPrefix; 733 keyPrefix << ffdc_prefix << "PROC_CO_" << std::setfill('0') 734 << std::setw(2) << calloutCount << "_"; 735 736 pelAdditionalData.emplace_back( 737 std::string(keyPrefix.str()).append("PRIORITY"), 738 procCallout.callout_priority); 739 740 pelAdditionalData.emplace_back( 741 std::string(keyPrefix.str()).append("MAINT_PROCEDURE"), 742 procCallout.proc_callout); 743 744 json jsonCalloutData; 745 jsonCalloutData["Procedure"] = procCallout.proc_callout; 746 std::string pelPriority = 747 getPelPriority(procCallout.callout_priority); 748 jsonCalloutData["Priority"] = pelPriority; 749 jsonCalloutDataList.emplace_back(jsonCalloutData); 750 }); 751 } 752 else if ((ffdc->ffdc_type != FFDC_TYPE_NONE) && 753 (ffdc->ffdc_type != FFDC_TYPE_UNSUPPORTED)) 754 { 755 log<level::ERR>( 756 std::format("Unsupported phal FFDC type to create PEL. " 757 "MSG: {}", 758 ffdc->message) 759 .c_str()); 760 } 761 762 // Adding collected phal logs into PEL additional data 763 for_each(traceLog.begin(), traceLog.end(), 764 [&pelAdditionalData]( 765 std::pair<std::string, std::string>& ele) -> void { 766 pelAdditionalData.emplace_back(ele.first, ele.second); 767 }); 768 769 // TODO: #ibm-openbmc/dev/issues/2595 : Once enabled this support, 770 // callout details is not required to sort in H,M and L orders which 771 // are expected by pel because, pel will take care for sorting callouts 772 // based on priority so, now adding support to send callout in order 773 // i.e High -> Medium -> Low. 774 std::sort( 775 jsonCalloutDataList.begin(), jsonCalloutDataList.end(), 776 [](const json& aEle, const json& bEle) -> bool { 777 // Considering b element having higher priority than a element 778 // or Both element will be same priorty (to keep same order 779 // which are given by phal when two callouts are having same 780 // priority) 781 if (((aEle["Priority"] == "M") && (bEle["Priority"] == "H")) || 782 ((aEle["Priority"] == "L") && 783 ((bEle["Priority"] == "H") || 784 (bEle["Priority"] == "M"))) || 785 (aEle["Priority"] == bEle["Priority"])) 786 { 787 return false; 788 } 789 790 // Considering a element having higher priority than b element 791 return true; 792 }); 793 openpower::pel::createErrorPEL("org.open_power.PHAL.Error.Boot", 794 jsonCalloutDataList, pelAdditionalData, 795 Severity::Error); 796 } 797 catch (const std::exception& ex) 798 { 799 reset(); 800 throw ex; 801 } 802 reset(); 803 } 804 805 void processPlatBootError(const ipl_error_info& errInfo) 806 { 807 log<level::INFO>("processPlatBootError "); 808 809 // Collecting ffdc details from phal 810 FFDC* ffdc = reinterpret_cast<FFDC*>(errInfo.private_data); 811 try 812 { 813 if (util::isHostPoweringOff()) 814 { 815 processPoweroffError(ffdc, "PLAT_"); 816 } 817 else 818 { 819 processBootErrorHelper(ffdc, "PLAT_"); 820 } 821 } 822 catch (const std::exception& ex) 823 { 824 log<level::ERR>( 825 std::format("processPlatBootError: exception({})", ex.what()) 826 .c_str()); 827 throw ex; 828 } 829 } 830 831 void processBootError(bool status) 832 { 833 log<level::INFO>( 834 std::format("processBootError: status({})", status).c_str()); 835 836 try 837 { 838 // return If no failure during hwp execution 839 if (status) 840 return; 841 // Collecting ffdc details from phal 842 FFDC ffdc; 843 libekb_get_ffdc(ffdc); 844 845 if (util::isHostPoweringOff()) 846 { 847 processPoweroffError(&ffdc, "HWP_"); 848 } 849 else 850 { 851 processBootErrorHelper(&ffdc, "HWP_"); 852 } 853 } 854 catch (const std::exception& ex) 855 { 856 log<level::ERR>( 857 std::format("processBootError: exception({})", ex.what()).c_str()); 858 throw ex; 859 } 860 } 861 862 void processSbeBootError() 863 { 864 log<level::INFO>("processSbeBootError : Entered "); 865 866 using namespace openpower::phal::sbe; 867 868 // To store phal trace and other additional data about ffdc. 869 FFDCData pelAdditionalData; 870 871 // Adding collected phal logs into PEL additional data 872 for_each( 873 traceLog.begin(), traceLog.end(), 874 [&pelAdditionalData](std::pair<std::string, std::string>& ele) -> void { 875 pelAdditionalData.emplace_back(ele.first, ele.second); 876 }); 877 878 // reset the trace log and counter 879 reset(); 880 881 // get primary processor to collect FFDC/Dump information. 882 struct pdbg_target* procTarget; 883 pdbg_for_each_class_target("proc", procTarget) 884 { 885 if (openpower::phal::isPrimaryProc(procTarget)) 886 break; 887 procTarget = nullptr; 888 } 889 // check valid primary processor is available 890 if (procTarget == nullptr) 891 { 892 log<level::ERR>("processSbeBootError: fail to get primary processor"); 893 // Add BMC code callout and create PEL 894 json jsonCalloutDataList; 895 jsonCalloutDataList = json::array(); 896 json jsonCalloutData; 897 jsonCalloutData["Procedure"] = "BMC0001"; 898 jsonCalloutData["Priority"] = "H"; 899 jsonCalloutDataList.emplace_back(jsonCalloutData); 900 openpower::pel::createErrorPEL( 901 "org.open_power.Processor.Error.SbeBootFailure", 902 jsonCalloutDataList, {}, Severity::Error); 903 return; 904 } 905 // SBE error object. 906 sbeError_t sbeError; 907 bool dumpIsRequired = false; 908 909 try 910 { 911 // Capture FFDC information on primary processor 912 sbeError = captureFFDC(procTarget); 913 } 914 catch (const phalError_t& phalError) 915 { 916 // Fail to collect FFDC information , trigger Dump 917 log<level::ERR>( 918 std::format("captureFFDC: Exception({})", phalError.what()) 919 .c_str()); 920 dumpIsRequired = true; 921 } 922 923 std::string event; 924 925 if ((sbeError.errType() == SBE_FFDC_NO_DATA) || 926 (sbeError.errType() == SBE_CMD_TIMEOUT) || (dumpIsRequired)) 927 { 928 event = "org.open_power.Processor.Error.SbeBootTimeout"; 929 dumpIsRequired = true; 930 } 931 else 932 { 933 event = "org.open_power.Processor.Error.SbeBootFailure"; 934 } 935 // SRC6 : [0:15] chip position 936 uint32_t index = pdbg_target_index(procTarget); 937 pelAdditionalData.emplace_back("SRC6", std::to_string(index << 16)); 938 // Create SBE Error with FFDC data. 939 auto logId = createSbeErrorPEL(event, sbeError, pelAdditionalData, 940 procTarget); 941 942 if (dumpIsRequired) 943 { 944 using namespace openpower::phal::dump; 945 DumpParameters dumpParameters = {logId, index, SBE_DUMP_TIMEOUT, 946 DumpType::SBE}; 947 try 948 { 949 requestDump(dumpParameters); 950 } 951 catch (const std::runtime_error& e) 952 { 953 // Allowing call back to handle the error gracefully. 954 log<level::ERR>("Dump collection failed"); 955 // TODO revist error handling. 956 } 957 } 958 } 959 960 void processGuardPartitionAccessError() 961 { 962 // Adding collected phal logs into PEL additional data 963 FFDCData pelAdditionalData; 964 965 for_each( 966 traceLog.begin(), traceLog.end(), 967 [&pelAdditionalData](std::pair<std::string, std::string>& ele) -> void { 968 pelAdditionalData.emplace_back(ele.first, ele.second); 969 }); 970 971 openpower::pel::createPEL("org.open_power.PHAL.Error.GuardPartitionAccess", 972 pelAdditionalData); 973 } 974 975 void reset() 976 { 977 // reset the trace log and counter 978 traceLog.clear(); 979 counter = 0; 980 } 981 982 void pDBGLogTraceCallbackHelper(int, const char* fmt, va_list ap) 983 { 984 processLogTraceCallback(NULL, fmt, ap); 985 } 986 } // namespace detail 987 988 static inline uint8_t getLogLevelFromEnv(const char* env, const uint8_t dValue) 989 { 990 auto logLevel = dValue; 991 try 992 { 993 if (const char* env_p = std::getenv(env)) 994 { 995 logLevel = std::stoi(env_p); 996 } 997 } 998 catch (const std::exception& e) 999 { 1000 log<level::ERR>(("Conversion Failure"), entry("ENVIRONMENT=%s", env), 1001 entry("EXCEPTION=%s", e.what())); 1002 } 1003 return logLevel; 1004 } 1005 1006 void addBootErrorCallbacks() 1007 { 1008 // Get individual phal repos log level from environment variable 1009 // and update the log level. 1010 pdbg_set_loglevel(getLogLevelFromEnv("PDBG_LOG", PDBG_INFO)); 1011 libekb_set_loglevel(getLogLevelFromEnv("LIBEKB_LOG", LIBEKB_LOG_IMP)); 1012 ipl_set_loglevel(getLogLevelFromEnv("IPL_LOG", IPL_INFO)); 1013 1014 // add callback for debug traces 1015 pdbg_set_logfunc(detail::pDBGLogTraceCallbackHelper); 1016 libekb_set_logfunc(detail::processLogTraceCallback, NULL); 1017 ipl_set_logfunc(detail::processLogTraceCallback, NULL); 1018 1019 // add callback for ipl failures 1020 ipl_set_error_callback_func(detail::processIplErrorCallback); 1021 } 1022 1023 } // namespace pel 1024 } // namespace openpower 1025