1 #include "config.h" 2 3 #include "ibm_handler.hpp" 4 5 #include "listener.hpp" 6 #include "parser.hpp" 7 8 #include <utility/common_utility.hpp> 9 #include <utility/dbus_utility.hpp> 10 #include <utility/json_utility.hpp> 11 #include <utility/vpd_specific_utility.hpp> 12 13 namespace vpd 14 { 15 IbmHandler::IbmHandler( 16 std::shared_ptr<Worker>& o_worker, 17 std::shared_ptr<BackupAndRestore>& o_backupAndRestoreObj, 18 const std::shared_ptr<sdbusplus::asio::dbus_interface>& i_iFace, 19 const std::shared_ptr<sdbusplus::asio::dbus_interface>& i_progressiFace, 20 const std::shared_ptr<boost::asio::io_context>& i_ioCon, 21 const std::shared_ptr<sdbusplus::asio::connection>& i_asioConnection) : 22 m_worker(o_worker), m_backupAndRestoreObj(o_backupAndRestoreObj), 23 m_interface(i_iFace), m_progressInterface(i_progressiFace), 24 m_ioContext(i_ioCon), m_asioConnection(i_asioConnection), 25 m_logger(Logger::getLoggerInstance()) 26 { 27 uint16_t l_errCode{0}; 28 29 // check VPD collection mode 30 const auto l_vpdCollectionMode = 31 commonUtility::isFieldModeEnabled() 32 ? types::VpdCollectionMode::DEFAULT_MODE 33 : commonUtility::getVpdCollectionMode(l_errCode); 34 35 if (l_errCode) 36 { 37 m_logger->logMessage( 38 "Error while trying to read VPD collection mode: " + 39 commonUtility::getErrCodeMsg(l_errCode)); 40 } 41 42 if (dbusUtility::isChassisPowerOn()) 43 { 44 // At power on, less number of FRU(s) needs collection. we can scale 45 // down the threads to reduce CPU utilization. 46 m_worker = std::make_shared<Worker>( 47 INVENTORY_JSON_DEFAULT, constants::VALUE_1, l_vpdCollectionMode); 48 } 49 else 50 { 51 // Initialize with default configuration 52 m_worker = std::make_shared<Worker>(INVENTORY_JSON_DEFAULT, 53 constants::MAX_THREADS, 54 l_vpdCollectionMode); 55 } 56 57 // Set up minimal things that is needed before bus name is claimed. 58 performInitialSetup(); 59 60 if (!m_sysCfgJsonObj.empty() && 61 jsonUtility::isBackupAndRestoreRequired(m_sysCfgJsonObj, l_errCode)) 62 { 63 try 64 { 65 m_backupAndRestoreObj = 66 std::make_shared<BackupAndRestore>(m_sysCfgJsonObj); 67 } 68 catch (const std::exception& l_ex) 69 { 70 logging::logMessage("Back up and restore instantiation failed. {" + 71 std::string(l_ex.what()) + "}"); 72 73 EventLogger::createSyncPel( 74 EventLogger::getErrorType(l_ex), types::SeverityType::Warning, 75 __FILE__, __FUNCTION__, 0, EventLogger::getErrorMsg(l_ex), 76 std::nullopt, std::nullopt, std::nullopt, std::nullopt); 77 } 78 } 79 else if (l_errCode) 80 { 81 logging::logMessage( 82 "Failed to check if backup & restore required. Error : " + 83 commonUtility::getErrCodeMsg(l_errCode)); 84 } 85 86 // Instantiate Listener object 87 m_eventListener = std::make_shared<Listener>(m_worker, m_asioConnection); 88 m_eventListener->registerAssetTagChangeCallback(); 89 m_eventListener->registerHostStateChangeCallback(); 90 m_eventListener->registerPresenceChangeCallback(); 91 92 // Instantiate GpioMonitor class 93 m_gpioMonitor = 94 std::make_shared<GpioMonitor>(m_sysCfgJsonObj, m_worker, m_ioContext); 95 } 96 97 void IbmHandler::SetTimerToDetectVpdCollectionStatus() 98 { 99 // Keeping max retry for 2 minutes. TODO: Make it configurable based on 100 // system type. 101 static constexpr auto MAX_RETRY = 12; 102 103 static boost::asio::steady_timer l_timer(*m_ioContext); 104 static uint8_t l_timerRetry = 0; 105 106 auto l_asyncCancelled = l_timer.expires_after(std::chrono::seconds(10)); 107 108 (l_asyncCancelled == 0) 109 ? logging::logMessage("Collection Timer started") 110 : logging::logMessage("Collection Timer re-started"); 111 112 l_timer.async_wait([this](const boost::system::error_code& ec) { 113 if (ec == boost::asio::error::operation_aborted) 114 { 115 throw std::runtime_error( 116 "Timer to detect thread collection status was aborted"); 117 } 118 119 if (ec) 120 { 121 throw std::runtime_error( 122 "Timer to detect thread collection failed"); 123 } 124 125 if (m_worker->isAllFruCollectionDone()) 126 { 127 // cancel the timer 128 l_timer.cancel(); 129 processFailedEeproms(); 130 131 // update VPD for powerVS system. 132 ConfigurePowerVsSystem(); 133 134 std::cout << "m_worker->isSystemVPDOnDBus() completed" << std::endl; 135 m_progressInterface->set_property( 136 "Status", std::string(constants::vpdCollectionCompleted)); 137 138 if (m_backupAndRestoreObj) 139 { 140 m_backupAndRestoreObj->backupAndRestore(); 141 } 142 143 if (m_eventListener) 144 { 145 m_eventListener->registerCorrPropCallBack(); 146 } 147 148 // terminate collection logger 149 m_logger->terminateVpdCollectionLogging(); 150 } 151 else 152 { 153 auto l_threadCount = m_worker->getActiveThreadCount(); 154 if (l_timerRetry == MAX_RETRY) 155 { 156 l_timer.cancel(); 157 logging::logMessage("Taking too long. Active thread = " + 158 std::to_string(l_threadCount)); 159 160 // terminate collection logger 161 m_logger->terminateVpdCollectionLogging(); 162 } 163 else 164 { 165 l_timerRetry++; 166 logging::logMessage("Collection is in progress for [" + 167 std::to_string(l_threadCount) + "] FRUs."); 168 169 SetTimerToDetectVpdCollectionStatus(); 170 } 171 } 172 }); 173 } 174 175 void IbmHandler::checkAndUpdatePowerVsVpd( 176 const nlohmann::json& i_powerVsJsonObj, 177 std::vector<std::string>& o_failedPathList) 178 { 179 for (const auto& [l_fruPath, l_recJson] : i_powerVsJsonObj.items()) 180 { 181 nlohmann::json l_sysCfgJsonObj{}; 182 if (m_worker.get() != nullptr) 183 { 184 l_sysCfgJsonObj = m_worker->getSysCfgJsonObj(); 185 } 186 187 // The utility method will handle emty JSON case. No explicit 188 // handling required here. 189 uint16_t l_errCode = 0; 190 auto l_inventoryPath = jsonUtility::getInventoryObjPathFromJson( 191 l_sysCfgJsonObj, l_fruPath, l_errCode); 192 193 // Mark it as failed if inventory path not found in JSON. 194 if (l_inventoryPath.empty()) 195 { 196 if (l_errCode) 197 { 198 logging::logMessage( 199 "Failed to get inventory object path from JSON for FRU [" + 200 l_fruPath + 201 "], error : " + commonUtility::getErrCodeMsg(l_errCode)); 202 } 203 204 o_failedPathList.push_back(l_fruPath); 205 continue; 206 } 207 208 // check if the FRU is present 209 if (!dbusUtility::isInventoryPresent(l_inventoryPath)) 210 { 211 logging::logMessage( 212 "Inventory not present, skip updating part number. Path: " + 213 l_inventoryPath); 214 continue; 215 } 216 217 // check if the FRU needs CCIN check before updating PN. 218 if (l_recJson.contains("CCIN")) 219 { 220 const auto& l_ccinFromDbus = 221 vpdSpecificUtility::getCcinFromDbus(l_inventoryPath, l_errCode); 222 223 // Not an ideal situation as CCIN can't be empty. 224 if (l_ccinFromDbus.empty()) 225 { 226 if (l_errCode) 227 { 228 m_logger->logMessage( 229 "Failed to get CCIN value from DBus, error : " + 230 commonUtility::getErrCodeMsg(l_errCode)); 231 } 232 233 o_failedPathList.push_back(l_fruPath); 234 continue; 235 } 236 237 std::vector<std::string> l_ccinListFromJson = l_recJson["CCIN"]; 238 239 if (find(l_ccinListFromJson.begin(), l_ccinListFromJson.end(), 240 l_ccinFromDbus) == l_ccinListFromJson.end()) 241 { 242 // Don't update PN in this case. 243 continue; 244 } 245 } 246 247 for (const auto& [l_recordName, l_kwdJson] : l_recJson.items()) 248 { 249 // Record name can't be CCIN, skip processing as it is there for PN 250 // update based on CCIN check. 251 if (l_recordName == constants::kwdCCIN) 252 { 253 continue; 254 } 255 256 for (const auto& [l_kwdName, l_kwdValue] : l_kwdJson.items()) 257 { 258 // Is value of type array. 259 if (!l_kwdValue.is_array()) 260 { 261 o_failedPathList.push_back(l_fruPath); 262 continue; 263 } 264 265 // Get current FRU Part number. 266 auto l_retVal = dbusUtility::readDbusProperty( 267 constants::pimServiceName, l_inventoryPath, 268 constants::viniInf, constants::kwdFN); 269 270 auto l_ptrToFn = std::get_if<types::BinaryVector>(&l_retVal); 271 272 if (!l_ptrToFn) 273 { 274 o_failedPathList.push_back(l_fruPath); 275 continue; 276 } 277 278 types::BinaryVector l_binaryKwdValue = 279 l_kwdValue.get<types::BinaryVector>(); 280 if (l_binaryKwdValue == (*l_ptrToFn)) 281 { 282 continue; 283 } 284 285 // Update part number only if required. 286 std::shared_ptr<Parser> l_parserObj = 287 std::make_shared<Parser>(l_fruPath, l_sysCfgJsonObj); 288 if (l_parserObj->updateVpdKeyword(std::make_tuple( 289 l_recordName, l_kwdName, l_binaryKwdValue)) == 290 constants::FAILURE) 291 { 292 o_failedPathList.push_back(l_fruPath); 293 continue; 294 } 295 296 // update the Asset interface Spare part number explicitly. 297 if (!dbusUtility::callPIM(types::ObjectMap{ 298 {l_inventoryPath, 299 {{constants::assetInf, 300 {{"SparePartNumber", 301 std::string(l_binaryKwdValue.begin(), 302 l_binaryKwdValue.end())}}}}}})) 303 { 304 logging::logMessage( 305 "Updating Spare Part Number under Asset interface failed for path [" + 306 l_inventoryPath + "]"); 307 } 308 309 // Just needed for logging. 310 std::string l_initialPartNum((*l_ptrToFn).begin(), 311 (*l_ptrToFn).end()); 312 std::string l_finalPartNum(l_binaryKwdValue.begin(), 313 l_binaryKwdValue.end()); 314 logging::logMessage( 315 "FRU Part number updated for path [" + l_inventoryPath + 316 "]" + "From [" + l_initialPartNum + "]" + " to [" + 317 l_finalPartNum + "]"); 318 } 319 } 320 } 321 } 322 323 void IbmHandler::ConfigurePowerVsSystem() 324 { 325 std::vector<std::string> l_failedPathList; 326 try 327 { 328 types::BinaryVector l_imValue = dbusUtility::getImFromDbus(); 329 if (l_imValue.empty()) 330 { 331 throw DbusException("Invalid IM value read from Dbus"); 332 } 333 334 uint16_t l_errCode = 0; 335 if (!vpdSpecificUtility::isPowerVsConfiguration(l_imValue, l_errCode)) 336 { 337 // TODO: Should booting be blocked in case of some 338 // misconfigurations? 339 if (l_errCode) 340 { 341 logging::logMessage( 342 "Failed to check if the system is powerVs Configuration, error : " + 343 commonUtility::getErrCodeMsg(l_errCode)); 344 } 345 346 return; 347 } 348 349 const nlohmann::json& l_powerVsJsonObj = 350 jsonUtility::getPowerVsJson(l_imValue, l_errCode); 351 352 if (l_powerVsJsonObj.empty()) 353 { 354 throw std::runtime_error("PowerVS Json not found. Error : " + 355 commonUtility::getErrCodeMsg(l_errCode)); 356 } 357 358 checkAndUpdatePowerVsVpd(l_powerVsJsonObj, l_failedPathList); 359 360 if (!l_failedPathList.empty()) 361 { 362 throw std::runtime_error( 363 "Part number update failed for following paths: "); 364 } 365 } 366 catch (const std::exception& l_ex) 367 { 368 // TODO log appropriate PEL 369 } 370 } 371 372 void IbmHandler::processFailedEeproms() 373 { 374 if (m_worker.get() != nullptr) 375 { 376 // TODO: 377 // - iterate through list of EEPROMs for which thread creation has 378 // failed 379 // - For each failed EEPROM, trigger VPD collection 380 m_worker->getFailedEepromPaths().clear(); 381 } 382 } 383 384 void IbmHandler::enableMuxChips() 385 { 386 if (m_sysCfgJsonObj.empty()) 387 { 388 // config JSON should not be empty at this point of execution. 389 throw std::runtime_error("Config JSON is empty. Can't enable muxes"); 390 return; 391 } 392 393 if (!m_sysCfgJsonObj.contains("muxes")) 394 { 395 logging::logMessage("No mux defined for the system in config JSON"); 396 return; 397 } 398 399 // iterate over each MUX detail and enable them. 400 for (const auto& item : m_sysCfgJsonObj["muxes"]) 401 { 402 if (item.contains("holdidlepath")) 403 { 404 std::string cmd = "echo 0 > "; 405 cmd += item["holdidlepath"]; 406 407 logging::logMessage("Enabling mux with command = " + cmd); 408 409 commonUtility::executeCmd(cmd); 410 continue; 411 } 412 413 logging::logMessage( 414 "Mux Entry does not have hold idle path. Can't enable the mux"); 415 } 416 } 417 418 void IbmHandler::performInitialSetup() 419 { 420 try 421 { 422 if (m_worker.get() == nullptr) 423 { 424 throw std::runtime_error( 425 "Worker object not found. Can't perform initial setup."); 426 } 427 428 m_sysCfgJsonObj = m_worker->getSysCfgJsonObj(); 429 if (!dbusUtility::isChassisPowerOn()) 430 { 431 m_worker->setDeviceTreeAndJson(); 432 433 // Since the above function setDeviceTreeAndJson can change the json 434 // which is used, we would need to reacquire the json object again 435 // here. 436 m_sysCfgJsonObj = m_worker->getSysCfgJsonObj(); 437 } 438 439 // Update BMC postion for RBMC prototype system 440 // Ignore BMC position update in case of any error 441 uint16_t l_errCode = 0; 442 if (isRbmcPrototypeSystem(l_errCode)) 443 { 444 size_t l_bmcPosition = std::numeric_limits<size_t>::max(); 445 checkAndUpdateBmcPosition(l_bmcPosition); 446 447 if (dbusUtility::callPIM(types::ObjectMap{ 448 {sdbusplus::message::object_path(constants::systemInvPath), 449 {{constants::rbmcPositionInterface, 450 {{"Position", l_bmcPosition}}}}}})) 451 { 452 m_logger->logMessage( 453 "Updating BMC position failed for path [" + 454 std::string(constants::systemInvPath) + 455 "], bmc position: " + std::to_string(l_bmcPosition)); 456 457 // ToDo: Check is PEL required 458 } 459 } 460 else if (l_errCode != 0) 461 { 462 m_logger->logMessage( 463 "Unable to determine whether system is RBMC system or not, reason: " + 464 commonUtility::getErrCodeMsg(l_errCode)); 465 } 466 467 // Enable all mux which are used for connecting to the i2c on the 468 // pcie slots for pcie cards. These are not enabled by kernel due to 469 // an issue seen with Castello cards, where the i2c line hangs on a 470 // probe. 471 enableMuxChips(); 472 473 // Nothing needs to be done. Service restarted or BMC re-booted for 474 // some reason at system power on. 475 } 476 catch (const std::exception& l_ex) 477 { 478 m_worker->setCollectionStatusProperty(SYSTEM_VPD_FILE_PATH, 479 constants::vpdCollectionFailed); 480 // Any issue in system's inital set up is handled in this catch. Error 481 // will not propogate to manager. 482 EventLogger::createSyncPel( 483 EventLogger::getErrorType(l_ex), types::SeverityType::Critical, 484 __FILE__, __FUNCTION__, 0, EventLogger::getErrorMsg(l_ex), 485 std::nullopt, std::nullopt, std::nullopt, std::nullopt); 486 } 487 } 488 489 void IbmHandler::collectAllFruVpd() 490 { 491 // initialize VPD collection logger 492 m_logger->initiateVpdCollectionLogging(); 493 494 // Setting status to "InProgress", before trigeering VPD collection. 495 m_progressInterface->set_property( 496 "Status", std::string(constants::vpdCollectionInProgress)); 497 m_worker->collectFrusFromJson(); 498 SetTimerToDetectVpdCollectionStatus(); 499 } 500 501 bool IbmHandler::isRbmcPrototypeSystem(uint16_t& o_errCode) const noexcept 502 { 503 types::BinaryVector l_imValue = dbusUtility::getImFromDbus(); 504 if (l_imValue.empty()) 505 { 506 o_errCode = error_code::DBUS_FAILURE; 507 return false; 508 } 509 510 if (constants::rbmcPrototypeSystemImValue == l_imValue) 511 { 512 return true; 513 } 514 515 return false; 516 } 517 518 void IbmHandler::checkAndUpdateBmcPosition(size_t& o_bmcPosition) const noexcept 519 { 520 if (m_worker.get() == nullptr) 521 { 522 m_logger->logMessage("Worker object not found"); 523 return; 524 } 525 526 const nlohmann::json& l_sysCfgJsonObj = m_worker->getSysCfgJsonObj(); 527 if (l_sysCfgJsonObj.empty()) 528 { 529 m_logger->logMessage( 530 "System config JSON is empty, unable to find BMC position"); 531 return; 532 } 533 534 uint16_t l_errCode = 0; 535 std::string l_motherboardEepromPath = jsonUtility::getFruPathFromJson( 536 l_sysCfgJsonObj, constants::systemVpdInvPath, l_errCode); 537 538 if (!l_motherboardEepromPath.empty()) 539 { 540 o_bmcPosition = constants::VALUE_1; 541 std::error_code l_ec; 542 if (std::filesystem::exists(l_motherboardEepromPath, l_ec)) 543 { 544 o_bmcPosition = constants::VALUE_0; 545 } 546 } 547 else if (l_errCode) 548 { 549 m_logger->logMessage("Unable to determine BMC position, reason: " + 550 commonUtility::getErrCodeMsg(l_errCode)); 551 } 552 else 553 { 554 m_logger->logMessage("Unable to determine BMC position, as FRU path[" + 555 std::string(constants::systemVpdInvPath) + 556 "], not found in the system config JSON."); 557 } 558 } 559 } // namespace vpd 560