111b9c3b1SVijay Khemka /* 211b9c3b1SVijay Khemka * Copyright (c) 2018 Intel Corporation. 311b9c3b1SVijay Khemka * Copyright (c) 2018-present Facebook. 411b9c3b1SVijay Khemka * 511b9c3b1SVijay Khemka * Licensed under the Apache License, Version 2.0 (the "License"); 611b9c3b1SVijay Khemka * you may not use this file except in compliance with the License. 711b9c3b1SVijay Khemka * You may obtain a copy of the License at 811b9c3b1SVijay Khemka * 911b9c3b1SVijay Khemka * http://www.apache.org/licenses/LICENSE-2.0 1011b9c3b1SVijay Khemka * 1111b9c3b1SVijay Khemka * Unless required by applicable law or agreed to in writing, software 1211b9c3b1SVijay Khemka * distributed under the License is distributed on an "AS IS" BASIS, 1311b9c3b1SVijay Khemka * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 1411b9c3b1SVijay Khemka * See the License for the specific language governing permissions and 1511b9c3b1SVijay Khemka * limitations under the License. 1611b9c3b1SVijay Khemka */ 1711b9c3b1SVijay Khemka 1811b9c3b1SVijay Khemka #include <boost/algorithm/string/join.hpp> 19020ff3e4SPatrick Williams #include <boost/container/flat_map.hpp> 2063c99be4SVijay Khemka #include <ipmid/api.hpp> 2111b9c3b1SVijay Khemka #include <nlohmann/json.hpp> 2211b9c3b1SVijay Khemka #include <phosphor-logging/log.hpp> 2311b9c3b1SVijay Khemka #include <sdbusplus/message/types.hpp> 2411b9c3b1SVijay Khemka #include <sdbusplus/timer.hpp> 2511b9c3b1SVijay Khemka #include <storagecommands.hpp> 2611b9c3b1SVijay Khemka 2763c99be4SVijay Khemka #include <fstream> 2863c99be4SVijay Khemka #include <iostream> 2963c99be4SVijay Khemka #include <sstream> 3063c99be4SVijay Khemka 317451903cScchoux enum class MemErrType 327451903cScchoux { 337451903cScchoux memTrainErr = 0, 347451903cScchoux memPmicErr = 7 357451903cScchoux }; 367451903cScchoux 377451903cScchoux enum class PostEvtType 387451903cScchoux { 397451903cScchoux pxeBootFail = 0, 407451903cScchoux httpBootFail = 6, 417451903cScchoux getCertFail = 7, 427451903cScchoux amdAblFail = 10 437451903cScchoux }; 447451903cScchoux 457451903cScchoux enum class PcieEvtType 467451903cScchoux { 477451903cScchoux dpc = 0 487451903cScchoux }; 497451903cScchoux 507451903cScchoux enum class MemEvtType 517451903cScchoux { 527451903cScchoux ppr = 0, 537451903cScchoux adddc = 5, 547451903cScchoux noDimm = 7 557451903cScchoux }; 567451903cScchoux 5711b9c3b1SVijay Khemka //---------------------------------------------------------------------- 5811b9c3b1SVijay Khemka // Platform specific functions for storing app data 5911b9c3b1SVijay Khemka //---------------------------------------------------------------------- 6011b9c3b1SVijay Khemka 61139aa4f0SVijay Khemka static std::string byteToStr(uint8_t byte) 62139aa4f0SVijay Khemka { 63139aa4f0SVijay Khemka std::stringstream ss; 64139aa4f0SVijay Khemka 65139aa4f0SVijay Khemka ss << std::hex << std::uppercase << std::setfill('0'); 66139aa4f0SVijay Khemka ss << std::setw(2) << (int)byte; 67139aa4f0SVijay Khemka 68139aa4f0SVijay Khemka return ss.str(); 69139aa4f0SVijay Khemka } 70139aa4f0SVijay Khemka 7111b9c3b1SVijay Khemka static void toHexStr(std::vector<uint8_t>& bytes, std::string& hexStr) 7211b9c3b1SVijay Khemka { 7311b9c3b1SVijay Khemka std::stringstream stream; 7411b9c3b1SVijay Khemka stream << std::hex << std::uppercase << std::setfill('0'); 7511b9c3b1SVijay Khemka for (const uint8_t byte : bytes) 7611b9c3b1SVijay Khemka { 7711b9c3b1SVijay Khemka stream << std::setw(2) << static_cast<int>(byte); 7811b9c3b1SVijay Khemka } 7911b9c3b1SVijay Khemka hexStr = stream.str(); 8011b9c3b1SVijay Khemka } 8111b9c3b1SVijay Khemka 8211b9c3b1SVijay Khemka static int fromHexStr(const std::string hexStr, std::vector<uint8_t>& data) 8311b9c3b1SVijay Khemka { 8411b9c3b1SVijay Khemka for (unsigned int i = 0; i < hexStr.size(); i += 2) 8511b9c3b1SVijay Khemka { 8611b9c3b1SVijay Khemka try 8711b9c3b1SVijay Khemka { 8811b9c3b1SVijay Khemka data.push_back(static_cast<uint8_t>( 8911b9c3b1SVijay Khemka std::stoul(hexStr.substr(i, 2), nullptr, 16))); 9011b9c3b1SVijay Khemka } 9135d12546SPatrick Williams catch (const std::invalid_argument& e) 9211b9c3b1SVijay Khemka { 9311b9c3b1SVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>(e.what()); 9411b9c3b1SVijay Khemka return -1; 9511b9c3b1SVijay Khemka } 9635d12546SPatrick Williams catch (const std::out_of_range& e) 9711b9c3b1SVijay Khemka { 9811b9c3b1SVijay Khemka phosphor::logging::log<phosphor::logging::level::ERR>(e.what()); 9911b9c3b1SVijay Khemka return -1; 10011b9c3b1SVijay Khemka } 10111b9c3b1SVijay Khemka } 10211b9c3b1SVijay Khemka return 0; 10311b9c3b1SVijay Khemka } 10411b9c3b1SVijay Khemka 10511b9c3b1SVijay Khemka namespace fb_oem::ipmi::sel 10611b9c3b1SVijay Khemka { 10711b9c3b1SVijay Khemka 10811b9c3b1SVijay Khemka class SELData 10911b9c3b1SVijay Khemka { 11011b9c3b1SVijay Khemka private: 11111b9c3b1SVijay Khemka nlohmann::json selDataObj; 11211b9c3b1SVijay Khemka 11311b9c3b1SVijay Khemka void flush() 11411b9c3b1SVijay Khemka { 11511b9c3b1SVijay Khemka std::ofstream file(SEL_JSON_DATA_FILE); 11611b9c3b1SVijay Khemka file << selDataObj; 11711b9c3b1SVijay Khemka file.close(); 11811b9c3b1SVijay Khemka } 11911b9c3b1SVijay Khemka 12011b9c3b1SVijay Khemka void init() 12111b9c3b1SVijay Khemka { 12211b9c3b1SVijay Khemka selDataObj[KEY_SEL_VER] = 0x51; 12311b9c3b1SVijay Khemka selDataObj[KEY_SEL_COUNT] = 0; 12411b9c3b1SVijay Khemka selDataObj[KEY_ADD_TIME] = 0xFFFFFFFF; 12511b9c3b1SVijay Khemka selDataObj[KEY_ERASE_TIME] = 0xFFFFFFFF; 12611b9c3b1SVijay Khemka selDataObj[KEY_OPER_SUPP] = 0x02; 12711b9c3b1SVijay Khemka /* Spec indicates that more than 64kB is free */ 12811b9c3b1SVijay Khemka selDataObj[KEY_FREE_SPACE] = 0xFFFF; 12911b9c3b1SVijay Khemka } 13011b9c3b1SVijay Khemka 13111b9c3b1SVijay Khemka public: 13211b9c3b1SVijay Khemka SELData() 13311b9c3b1SVijay Khemka { 13411b9c3b1SVijay Khemka /* Get App data stored in json file */ 13511b9c3b1SVijay Khemka std::ifstream file(SEL_JSON_DATA_FILE); 13611b9c3b1SVijay Khemka if (file) 13711b9c3b1SVijay Khemka { 13811b9c3b1SVijay Khemka file >> selDataObj; 13911b9c3b1SVijay Khemka file.close(); 14011b9c3b1SVijay Khemka } 14111b9c3b1SVijay Khemka 14211b9c3b1SVijay Khemka /* Initialize SelData object if no entries. */ 14311b9c3b1SVijay Khemka if (selDataObj.find(KEY_SEL_COUNT) == selDataObj.end()) 14411b9c3b1SVijay Khemka { 14511b9c3b1SVijay Khemka init(); 14611b9c3b1SVijay Khemka } 14711b9c3b1SVijay Khemka } 14811b9c3b1SVijay Khemka 14911b9c3b1SVijay Khemka int clear() 15011b9c3b1SVijay Khemka { 15111b9c3b1SVijay Khemka /* Clear the complete Sel Json object */ 15211b9c3b1SVijay Khemka selDataObj.clear(); 15311b9c3b1SVijay Khemka /* Reinitialize it with basic data */ 15411b9c3b1SVijay Khemka init(); 15511b9c3b1SVijay Khemka /* Save the erase time */ 15611b9c3b1SVijay Khemka struct timespec selTime = {}; 15711b9c3b1SVijay Khemka if (clock_gettime(CLOCK_REALTIME, &selTime) < 0) 15811b9c3b1SVijay Khemka { 15911b9c3b1SVijay Khemka return -1; 16011b9c3b1SVijay Khemka } 16111b9c3b1SVijay Khemka selDataObj[KEY_ERASE_TIME] = selTime.tv_sec; 16211b9c3b1SVijay Khemka flush(); 16311b9c3b1SVijay Khemka return 0; 16411b9c3b1SVijay Khemka } 16511b9c3b1SVijay Khemka 16611b9c3b1SVijay Khemka uint32_t getCount() 16711b9c3b1SVijay Khemka { 16811b9c3b1SVijay Khemka return selDataObj[KEY_SEL_COUNT]; 16911b9c3b1SVijay Khemka } 17011b9c3b1SVijay Khemka 17111b9c3b1SVijay Khemka void getInfo(GetSELInfoData& info) 17211b9c3b1SVijay Khemka { 17311b9c3b1SVijay Khemka info.selVersion = selDataObj[KEY_SEL_VER]; 17411b9c3b1SVijay Khemka info.entries = selDataObj[KEY_SEL_COUNT]; 17511b9c3b1SVijay Khemka info.freeSpace = selDataObj[KEY_FREE_SPACE]; 17611b9c3b1SVijay Khemka info.addTimeStamp = selDataObj[KEY_ADD_TIME]; 17711b9c3b1SVijay Khemka info.eraseTimeStamp = selDataObj[KEY_ERASE_TIME]; 17811b9c3b1SVijay Khemka info.operationSupport = selDataObj[KEY_OPER_SUPP]; 17911b9c3b1SVijay Khemka } 18011b9c3b1SVijay Khemka 18111b9c3b1SVijay Khemka int getEntry(uint32_t index, std::string& rawStr) 18211b9c3b1SVijay Khemka { 18311b9c3b1SVijay Khemka std::stringstream ss; 18411b9c3b1SVijay Khemka ss << std::hex; 18511b9c3b1SVijay Khemka ss << std::setw(2) << std::setfill('0') << index; 18611b9c3b1SVijay Khemka 18711b9c3b1SVijay Khemka /* Check or the requested SEL Entry, if record is available */ 18811b9c3b1SVijay Khemka if (selDataObj.find(ss.str()) == selDataObj.end()) 18911b9c3b1SVijay Khemka { 19011b9c3b1SVijay Khemka return -1; 19111b9c3b1SVijay Khemka } 19211b9c3b1SVijay Khemka 19311b9c3b1SVijay Khemka rawStr = selDataObj[ss.str()][KEY_SEL_ENTRY_RAW]; 19411b9c3b1SVijay Khemka return 0; 19511b9c3b1SVijay Khemka } 19611b9c3b1SVijay Khemka 19711b9c3b1SVijay Khemka int addEntry(std::string keyStr) 19811b9c3b1SVijay Khemka { 19911b9c3b1SVijay Khemka struct timespec selTime = {}; 20011b9c3b1SVijay Khemka 20111b9c3b1SVijay Khemka if (clock_gettime(CLOCK_REALTIME, &selTime) < 0) 20211b9c3b1SVijay Khemka { 20311b9c3b1SVijay Khemka return -1; 20411b9c3b1SVijay Khemka } 20511b9c3b1SVijay Khemka 20611b9c3b1SVijay Khemka selDataObj[KEY_ADD_TIME] = selTime.tv_sec; 20711b9c3b1SVijay Khemka 20811b9c3b1SVijay Khemka int selCount = selDataObj[KEY_SEL_COUNT]; 20911b9c3b1SVijay Khemka selDataObj[KEY_SEL_COUNT] = ++selCount; 21011b9c3b1SVijay Khemka 21111b9c3b1SVijay Khemka std::stringstream ss; 21211b9c3b1SVijay Khemka ss << std::hex; 21311b9c3b1SVijay Khemka ss << std::setw(2) << std::setfill('0') << selCount; 21411b9c3b1SVijay Khemka 21511b9c3b1SVijay Khemka selDataObj[ss.str()][KEY_SEL_ENTRY_RAW] = keyStr; 21611b9c3b1SVijay Khemka flush(); 21711b9c3b1SVijay Khemka return selCount; 21811b9c3b1SVijay Khemka } 21911b9c3b1SVijay Khemka }; 22011b9c3b1SVijay Khemka 221139aa4f0SVijay Khemka /* 222*519530beSManojkiran Eda * A Function to parse common SEL message, a helper function 223139aa4f0SVijay Khemka * for parseStdSel. 224139aa4f0SVijay Khemka * 225*519530beSManojkiran Eda * Note that this function __CANNOT__ be overridden. 226139aa4f0SVijay Khemka * To add board specific routine, please override parseStdSel. 227139aa4f0SVijay Khemka */ 228139aa4f0SVijay Khemka 229139aa4f0SVijay Khemka /*Used by decoding ME event*/ 230139aa4f0SVijay Khemka std::vector<std::string> nmDomName = { 231139aa4f0SVijay Khemka "Entire Platform", "CPU Subsystem", 232139aa4f0SVijay Khemka "Memory Subsystem", "HW Protection", 233139aa4f0SVijay Khemka "High Power I/O subsystem", "Unknown"}; 234139aa4f0SVijay Khemka 235139aa4f0SVijay Khemka /* Default log message for unknown type */ 236e39f9393SWilly Tu static void logDefault(uint8_t*, std::string& errLog) 237139aa4f0SVijay Khemka { 238139aa4f0SVijay Khemka errLog = "Unknown"; 239139aa4f0SVijay Khemka } 240139aa4f0SVijay Khemka 241139aa4f0SVijay Khemka static void logSysEvent(uint8_t* data, std::string& errLog) 242139aa4f0SVijay Khemka { 243139aa4f0SVijay Khemka if (data[0] == 0xE5) 244139aa4f0SVijay Khemka { 245139aa4f0SVijay Khemka errLog = "Cause of Time change - "; 246139aa4f0SVijay Khemka switch (data[2]) 247139aa4f0SVijay Khemka { 248139aa4f0SVijay Khemka case 0x00: 249139aa4f0SVijay Khemka errLog += "NTP"; 250139aa4f0SVijay Khemka break; 251139aa4f0SVijay Khemka case 0x01: 252139aa4f0SVijay Khemka errLog += "Host RTL"; 253139aa4f0SVijay Khemka break; 254139aa4f0SVijay Khemka case 0x02: 255139aa4f0SVijay Khemka errLog += "Set SEL time cmd"; 256139aa4f0SVijay Khemka break; 257139aa4f0SVijay Khemka case 0x03: 258139aa4f0SVijay Khemka errLog += "Set SEL time UTC offset cmd"; 259139aa4f0SVijay Khemka break; 260139aa4f0SVijay Khemka default: 261139aa4f0SVijay Khemka errLog += "Unknown"; 262139aa4f0SVijay Khemka } 263139aa4f0SVijay Khemka 264139aa4f0SVijay Khemka if (data[1] == 0x00) 265139aa4f0SVijay Khemka errLog += " - First Time"; 266139aa4f0SVijay Khemka else if (data[1] == 0x80) 267139aa4f0SVijay Khemka errLog += " - Second Time"; 268139aa4f0SVijay Khemka } 269139aa4f0SVijay Khemka else 270139aa4f0SVijay Khemka { 271139aa4f0SVijay Khemka errLog = "Unknown"; 272139aa4f0SVijay Khemka } 273139aa4f0SVijay Khemka } 274139aa4f0SVijay Khemka 275139aa4f0SVijay Khemka static void logThermalEvent(uint8_t* data, std::string& errLog) 276139aa4f0SVijay Khemka { 277139aa4f0SVijay Khemka if (data[0] == 0x1) 278139aa4f0SVijay Khemka { 279139aa4f0SVijay Khemka errLog = "Limit Exceeded"; 280139aa4f0SVijay Khemka } 281139aa4f0SVijay Khemka else 282139aa4f0SVijay Khemka { 283139aa4f0SVijay Khemka errLog = "Unknown"; 284139aa4f0SVijay Khemka } 285139aa4f0SVijay Khemka } 286139aa4f0SVijay Khemka 287139aa4f0SVijay Khemka static void logCritIrq(uint8_t* data, std::string& errLog) 288139aa4f0SVijay Khemka { 289139aa4f0SVijay Khemka if (data[0] == 0x0) 290139aa4f0SVijay Khemka { 291139aa4f0SVijay Khemka errLog = "NMI / Diagnostic Interrupt"; 292139aa4f0SVijay Khemka } 293139aa4f0SVijay Khemka else if (data[0] == 0x03) 294139aa4f0SVijay Khemka { 295139aa4f0SVijay Khemka errLog = "Software NMI"; 296139aa4f0SVijay Khemka } 297139aa4f0SVijay Khemka else 298139aa4f0SVijay Khemka { 299139aa4f0SVijay Khemka errLog = "Unknown"; 300139aa4f0SVijay Khemka } 301139aa4f0SVijay Khemka 302139aa4f0SVijay Khemka /* TODO: Call add_cri_sel for CRITICAL_IRQ */ 303139aa4f0SVijay Khemka } 304139aa4f0SVijay Khemka 305139aa4f0SVijay Khemka static void logPostErr(uint8_t* data, std::string& errLog) 306139aa4f0SVijay Khemka { 307139aa4f0SVijay Khemka if ((data[0] & 0x0F) == 0x0) 308139aa4f0SVijay Khemka { 309139aa4f0SVijay Khemka errLog = "System Firmware Error"; 310139aa4f0SVijay Khemka } 311139aa4f0SVijay Khemka else 312139aa4f0SVijay Khemka { 313139aa4f0SVijay Khemka errLog = "Unknown"; 314139aa4f0SVijay Khemka } 315139aa4f0SVijay Khemka 316139aa4f0SVijay Khemka if (((data[0] >> 6) & 0x03) == 0x3) 317139aa4f0SVijay Khemka { 318139aa4f0SVijay Khemka // TODO: Need to implement IPMI spec based Post Code 319139aa4f0SVijay Khemka errLog += ", IPMI Post Code"; 320139aa4f0SVijay Khemka } 321139aa4f0SVijay Khemka else if (((data[0] >> 6) & 0x03) == 0x2) 322139aa4f0SVijay Khemka { 3232405ae98SPatrick Williams errLog += ", OEM Post Code 0x" + byteToStr(data[2]) + 3242405ae98SPatrick Williams byteToStr(data[1]); 325139aa4f0SVijay Khemka 326139aa4f0SVijay Khemka switch ((data[2] << 8) | data[1]) 327139aa4f0SVijay Khemka { 328139aa4f0SVijay Khemka case 0xA105: 329139aa4f0SVijay Khemka errLog += ", BMC Failed (No Response)"; 330139aa4f0SVijay Khemka break; 331139aa4f0SVijay Khemka case 0xA106: 332139aa4f0SVijay Khemka errLog += ", BMC Failed (Self Test Fail)"; 333139aa4f0SVijay Khemka break; 334139aa4f0SVijay Khemka case 0xA10A: 335139aa4f0SVijay Khemka errLog += ", System Firmware Corruption Detected"; 336139aa4f0SVijay Khemka break; 337139aa4f0SVijay Khemka case 0xA10B: 338139aa4f0SVijay Khemka errLog += ", TPM Self-Test FAIL Detected"; 339139aa4f0SVijay Khemka } 340139aa4f0SVijay Khemka } 341139aa4f0SVijay Khemka } 342139aa4f0SVijay Khemka 343139aa4f0SVijay Khemka static void logMchChkErr(uint8_t* data, std::string& errLog) 344139aa4f0SVijay Khemka { 345139aa4f0SVijay Khemka /* TODO: Call add_cri_sel for CRITICAL_IRQ */ 346139aa4f0SVijay Khemka if ((data[0] & 0x0F) == 0x0B) 347139aa4f0SVijay Khemka { 348139aa4f0SVijay Khemka errLog = "Uncorrectable"; 349139aa4f0SVijay Khemka } 350139aa4f0SVijay Khemka else if ((data[0] & 0x0F) == 0x0C) 351139aa4f0SVijay Khemka { 352139aa4f0SVijay Khemka errLog = "Correctable"; 353139aa4f0SVijay Khemka } 354139aa4f0SVijay Khemka else 355139aa4f0SVijay Khemka { 356139aa4f0SVijay Khemka errLog = "Unknown"; 357139aa4f0SVijay Khemka } 358139aa4f0SVijay Khemka 359139aa4f0SVijay Khemka errLog += ", Machine Check bank Number " + std::to_string(data[1]) + 360139aa4f0SVijay Khemka ", CPU " + std::to_string(data[2] >> 5) + ", Core " + 361139aa4f0SVijay Khemka std::to_string(data[2] & 0x1F); 362139aa4f0SVijay Khemka } 363139aa4f0SVijay Khemka 364139aa4f0SVijay Khemka static void logPcieErr(uint8_t* data, std::string& errLog) 365139aa4f0SVijay Khemka { 366139aa4f0SVijay Khemka std::stringstream tmp1, tmp2; 367139aa4f0SVijay Khemka tmp1 << std::hex << std::uppercase << std::setfill('0'); 368139aa4f0SVijay Khemka tmp2 << std::hex << std::uppercase << std::setfill('0'); 369139aa4f0SVijay Khemka tmp1 << " (Bus " << std::setw(2) << (int)(data[2]) << " / Dev " 370139aa4f0SVijay Khemka << std::setw(2) << (int)(data[1] >> 3) << " / Fun " << std::setw(2) 371139aa4f0SVijay Khemka << (int)(data[1] & 0x7) << ")"; 372139aa4f0SVijay Khemka 373139aa4f0SVijay Khemka switch (data[0] & 0xF) 374139aa4f0SVijay Khemka { 375139aa4f0SVijay Khemka case 0x4: 376139aa4f0SVijay Khemka errLog = "PCI PERR" + tmp1.str(); 377139aa4f0SVijay Khemka break; 378139aa4f0SVijay Khemka case 0x5: 379139aa4f0SVijay Khemka errLog = "PCI SERR" + tmp1.str(); 380139aa4f0SVijay Khemka break; 381139aa4f0SVijay Khemka case 0x7: 382139aa4f0SVijay Khemka errLog = "Correctable" + tmp1.str(); 383139aa4f0SVijay Khemka break; 384139aa4f0SVijay Khemka case 0x8: 385139aa4f0SVijay Khemka errLog = "Uncorrectable" + tmp1.str(); 386139aa4f0SVijay Khemka break; 387139aa4f0SVijay Khemka case 0xA: 388139aa4f0SVijay Khemka errLog = "Bus Fatal" + tmp1.str(); 389139aa4f0SVijay Khemka break; 390d1194024SVijay Khemka case 0xD: 391d1194024SVijay Khemka { 392139aa4f0SVijay Khemka uint32_t venId = (uint32_t)data[1] << 8 | (uint32_t)data[2]; 393139aa4f0SVijay Khemka tmp2 << "Vendor ID: 0x" << std::setw(4) << venId; 394139aa4f0SVijay Khemka errLog = tmp2.str(); 395139aa4f0SVijay Khemka } 396139aa4f0SVijay Khemka break; 397d1194024SVijay Khemka case 0xE: 398d1194024SVijay Khemka { 399139aa4f0SVijay Khemka uint32_t devId = (uint32_t)data[1] << 8 | (uint32_t)data[2]; 400139aa4f0SVijay Khemka tmp2 << "Device ID: 0x" << std::setw(4) << devId; 401139aa4f0SVijay Khemka errLog = tmp2.str(); 402139aa4f0SVijay Khemka } 403139aa4f0SVijay Khemka break; 404139aa4f0SVijay Khemka case 0xF: 405139aa4f0SVijay Khemka tmp2 << "Error ID from downstream: 0x" << std::setw(2) 406139aa4f0SVijay Khemka << (int)(data[1]) << std::setw(2) << (int)(data[2]); 407139aa4f0SVijay Khemka errLog = tmp2.str(); 408139aa4f0SVijay Khemka break; 409139aa4f0SVijay Khemka default: 410139aa4f0SVijay Khemka errLog = "Unknown"; 411139aa4f0SVijay Khemka } 412139aa4f0SVijay Khemka } 413139aa4f0SVijay Khemka 414139aa4f0SVijay Khemka static void logIioErr(uint8_t* data, std::string& errLog) 415139aa4f0SVijay Khemka { 416139aa4f0SVijay Khemka std::vector<std::string> tmpStr = { 417139aa4f0SVijay Khemka "IRP0", "IRP1", " IIO-Core", "VT-d", "Intel Quick Data", 418139aa4f0SVijay Khemka "Misc", " DMA", "ITC", "OTC", "CI"}; 419139aa4f0SVijay Khemka 420139aa4f0SVijay Khemka if ((data[0] & 0xF) == 0) 421139aa4f0SVijay Khemka { 422139aa4f0SVijay Khemka errLog += "CPU " + std::to_string(data[2] >> 5) + ", Error ID 0x" + 423139aa4f0SVijay Khemka byteToStr(data[1]) + " - "; 424139aa4f0SVijay Khemka 425139aa4f0SVijay Khemka if ((data[2] & 0xF) <= 0x9) 426139aa4f0SVijay Khemka { 427139aa4f0SVijay Khemka errLog += tmpStr[(data[2] & 0xF)]; 428139aa4f0SVijay Khemka } 429139aa4f0SVijay Khemka else 430139aa4f0SVijay Khemka { 431139aa4f0SVijay Khemka errLog += "Reserved"; 432139aa4f0SVijay Khemka } 433139aa4f0SVijay Khemka } 434139aa4f0SVijay Khemka else 435139aa4f0SVijay Khemka { 436139aa4f0SVijay Khemka errLog = "Unknown"; 437139aa4f0SVijay Khemka } 438139aa4f0SVijay Khemka } 439139aa4f0SVijay Khemka 440e39f9393SWilly Tu [[maybe_unused]] static void logMemErr(uint8_t* dataPtr, std::string& errLog) 441139aa4f0SVijay Khemka { 442139aa4f0SVijay Khemka uint8_t snrType = dataPtr[0]; 443139aa4f0SVijay Khemka uint8_t snrNum = dataPtr[1]; 444139aa4f0SVijay Khemka uint8_t* data = &(dataPtr[3]); 445139aa4f0SVijay Khemka 446139aa4f0SVijay Khemka /* TODO: add pal_add_cri_sel */ 447139aa4f0SVijay Khemka 448139aa4f0SVijay Khemka if (snrNum == memoryEccError) 449139aa4f0SVijay Khemka { 450139aa4f0SVijay Khemka /* SEL from MEMORY_ECC_ERR Sensor */ 451139aa4f0SVijay Khemka switch (data[0] & 0x0F) 452139aa4f0SVijay Khemka { 453139aa4f0SVijay Khemka case 0x0: 454139aa4f0SVijay Khemka if (snrType == 0x0C) 455139aa4f0SVijay Khemka { 456139aa4f0SVijay Khemka errLog = "Correctable"; 457139aa4f0SVijay Khemka } 458139aa4f0SVijay Khemka else if (snrType == 0x10) 459139aa4f0SVijay Khemka { 460139aa4f0SVijay Khemka errLog = "Correctable ECC error Logging Disabled"; 461139aa4f0SVijay Khemka } 462139aa4f0SVijay Khemka break; 463139aa4f0SVijay Khemka case 0x1: 464139aa4f0SVijay Khemka errLog = "Uncorrectable"; 465139aa4f0SVijay Khemka break; 466139aa4f0SVijay Khemka case 0x5: 467139aa4f0SVijay Khemka errLog = "Correctable ECC error Logging Limit Disabled"; 468139aa4f0SVijay Khemka break; 469139aa4f0SVijay Khemka default: 470139aa4f0SVijay Khemka errLog = "Unknown"; 471139aa4f0SVijay Khemka } 472139aa4f0SVijay Khemka } 473139aa4f0SVijay Khemka else if (snrNum == memoryErrLogDIS) 474139aa4f0SVijay Khemka { 475139aa4f0SVijay Khemka // SEL from MEMORY_ERR_LOG_DIS Sensor 476139aa4f0SVijay Khemka if ((data[0] & 0x0F) == 0x0) 477139aa4f0SVijay Khemka { 478139aa4f0SVijay Khemka errLog = "Correctable Memory Error Logging Disabled"; 479139aa4f0SVijay Khemka } 480139aa4f0SVijay Khemka else 481139aa4f0SVijay Khemka { 482139aa4f0SVijay Khemka errLog = "Unknown"; 483139aa4f0SVijay Khemka } 484139aa4f0SVijay Khemka } 485139aa4f0SVijay Khemka else 486139aa4f0SVijay Khemka { 487139aa4f0SVijay Khemka errLog = "Unknown"; 488139aa4f0SVijay Khemka return; 489139aa4f0SVijay Khemka } 490139aa4f0SVijay Khemka 491139aa4f0SVijay Khemka /* Common routine for both MEM_ECC_ERR and MEMORY_ERR_LOG_DIS */ 492139aa4f0SVijay Khemka 493139aa4f0SVijay Khemka errLog += " (DIMM " + byteToStr(data[2]) + ") Logical Rank " + 494139aa4f0SVijay Khemka std::to_string(data[1] & 0x03); 495139aa4f0SVijay Khemka 496139aa4f0SVijay Khemka /* DIMM number (data[2]): 497139aa4f0SVijay Khemka * Bit[7:5]: Socket number (Range: 0-7) 498139aa4f0SVijay Khemka * Bit[4:3]: Channel number (Range: 0-3) 499139aa4f0SVijay Khemka * Bit[2:0]: DIMM number (Range: 0-7) 500139aa4f0SVijay Khemka */ 501139aa4f0SVijay Khemka 502139aa4f0SVijay Khemka /* TODO: Verify these bits */ 503139aa4f0SVijay Khemka std::string cpuStr = "CPU# " + std::to_string((data[2] & 0xE0) >> 5); 504139aa4f0SVijay Khemka std::string chStr = "CHN# " + std::to_string((data[2] & 0x18) >> 3); 505139aa4f0SVijay Khemka std::string dimmStr = "DIMM#" + std::to_string(data[2] & 0x7); 506139aa4f0SVijay Khemka 507139aa4f0SVijay Khemka switch ((data[1] & 0xC) >> 2) 508139aa4f0SVijay Khemka { 509d1194024SVijay Khemka case 0x0: 510d1194024SVijay Khemka { 511139aa4f0SVijay Khemka /* All Info Valid */ 512e39f9393SWilly Tu [[maybe_unused]] uint8_t chnNum = (data[2] & 0x1C) >> 2; 513e39f9393SWilly Tu [[maybe_unused]] uint8_t dimmNum = data[2] & 0x3; 514139aa4f0SVijay Khemka 515139aa4f0SVijay Khemka /* TODO: If critical SEL logging is available, do it */ 516139aa4f0SVijay Khemka if (snrType == 0x0C) 517139aa4f0SVijay Khemka { 518139aa4f0SVijay Khemka if ((data[0] & 0x0F) == 0x0) 519139aa4f0SVijay Khemka { 520139aa4f0SVijay Khemka /* TODO: add_cri_sel */ 521139aa4f0SVijay Khemka /* "DIMM"+ 'A'+ chnNum + dimmNum + " ECC err,FRU:1" 522139aa4f0SVijay Khemka */ 523139aa4f0SVijay Khemka } 524139aa4f0SVijay Khemka else if ((data[0] & 0x0F) == 0x1) 525139aa4f0SVijay Khemka { 526139aa4f0SVijay Khemka /* TODO: add_cri_sel */ 527139aa4f0SVijay Khemka /* "DIMM"+ 'A'+ chnNum + dimmNum + " UECC err,FRU:1" 528139aa4f0SVijay Khemka */ 529139aa4f0SVijay Khemka } 530139aa4f0SVijay Khemka } 531139aa4f0SVijay Khemka /* Continue to parse the error into a string. All Info Valid 532139aa4f0SVijay Khemka */ 533139aa4f0SVijay Khemka errLog += " (" + cpuStr + ", " + chStr + ", " + dimmStr + ")"; 534139aa4f0SVijay Khemka } 535139aa4f0SVijay Khemka 536139aa4f0SVijay Khemka break; 537139aa4f0SVijay Khemka case 0x1: 538139aa4f0SVijay Khemka 539139aa4f0SVijay Khemka /* DIMM info not valid */ 540139aa4f0SVijay Khemka errLog += " (" + cpuStr + ", " + chStr + ")"; 541139aa4f0SVijay Khemka break; 542139aa4f0SVijay Khemka case 0x2: 543139aa4f0SVijay Khemka 544139aa4f0SVijay Khemka /* CHN info not valid */ 545139aa4f0SVijay Khemka errLog += " (" + cpuStr + ", " + dimmStr + ")"; 546139aa4f0SVijay Khemka break; 547139aa4f0SVijay Khemka case 0x3: 548139aa4f0SVijay Khemka 549139aa4f0SVijay Khemka /* CPU info not valid */ 550139aa4f0SVijay Khemka errLog += " (" + chStr + ", " + dimmStr + ")"; 551139aa4f0SVijay Khemka break; 552139aa4f0SVijay Khemka } 553139aa4f0SVijay Khemka } 554139aa4f0SVijay Khemka 555139aa4f0SVijay Khemka static void logPwrErr(uint8_t* data, std::string& errLog) 556139aa4f0SVijay Khemka { 557139aa4f0SVijay Khemka if (data[0] == 0x1) 558139aa4f0SVijay Khemka { 559139aa4f0SVijay Khemka errLog = "SYS_PWROK failure"; 560*519530beSManojkiran Eda /* Also try logging to Critical log file, if available */ 561139aa4f0SVijay Khemka /* "SYS_PWROK failure,FRU:1" */ 562139aa4f0SVijay Khemka } 563139aa4f0SVijay Khemka else if (data[0] == 0x2) 564139aa4f0SVijay Khemka { 565139aa4f0SVijay Khemka errLog = "PCH_PWROK failure"; 566*519530beSManojkiran Eda /* Also try logging to Critical log file, if available */ 567139aa4f0SVijay Khemka /* "PCH_PWROK failure,FRU:1" */ 568139aa4f0SVijay Khemka } 569139aa4f0SVijay Khemka else 570139aa4f0SVijay Khemka { 571139aa4f0SVijay Khemka errLog = "Unknown"; 572139aa4f0SVijay Khemka } 573139aa4f0SVijay Khemka } 574139aa4f0SVijay Khemka 575139aa4f0SVijay Khemka static void logCatErr(uint8_t* data, std::string& errLog) 576139aa4f0SVijay Khemka { 577139aa4f0SVijay Khemka if (data[0] == 0x0) 578139aa4f0SVijay Khemka { 579139aa4f0SVijay Khemka errLog = "IERR/CATERR"; 580*519530beSManojkiran Eda /* Also try logging to Critical log file, if available */ 581139aa4f0SVijay Khemka /* "IERR,FRU:1 */ 582139aa4f0SVijay Khemka } 583139aa4f0SVijay Khemka else if (data[0] == 0xB) 584139aa4f0SVijay Khemka { 585139aa4f0SVijay Khemka errLog = "MCERR/CATERR"; 586*519530beSManojkiran Eda /* Also try logging to Critical log file, if available */ 587139aa4f0SVijay Khemka /* "MCERR,FRU:1 */ 588139aa4f0SVijay Khemka } 589139aa4f0SVijay Khemka else 590139aa4f0SVijay Khemka { 591139aa4f0SVijay Khemka errLog = "Unknown"; 592139aa4f0SVijay Khemka } 593139aa4f0SVijay Khemka } 594139aa4f0SVijay Khemka 595139aa4f0SVijay Khemka static void logDimmHot(uint8_t* data, std::string& errLog) 596139aa4f0SVijay Khemka { 597139aa4f0SVijay Khemka if ((data[0] << 16 | data[1] << 8 | data[2]) == 0x01FFFF) 598139aa4f0SVijay Khemka { 599139aa4f0SVijay Khemka errLog = "SOC MEMHOT"; 600139aa4f0SVijay Khemka } 601139aa4f0SVijay Khemka else 602139aa4f0SVijay Khemka { 603139aa4f0SVijay Khemka errLog = "Unknown"; 604*519530beSManojkiran Eda /* Also try logging to Critical log file, if available */ 605139aa4f0SVijay Khemka /* ""CPU_DIMM_HOT %s,FRU:1" */ 606139aa4f0SVijay Khemka } 607139aa4f0SVijay Khemka } 608139aa4f0SVijay Khemka 609139aa4f0SVijay Khemka static void logSwNMI(uint8_t* data, std::string& errLog) 610139aa4f0SVijay Khemka { 611139aa4f0SVijay Khemka if ((data[0] << 16 | data[1] << 8 | data[2]) == 0x03FFFF) 612139aa4f0SVijay Khemka { 613139aa4f0SVijay Khemka errLog = "Software NMI"; 614139aa4f0SVijay Khemka } 615139aa4f0SVijay Khemka else 616139aa4f0SVijay Khemka { 617139aa4f0SVijay Khemka errLog = "Unknown SW NMI"; 618139aa4f0SVijay Khemka } 619139aa4f0SVijay Khemka } 620139aa4f0SVijay Khemka 621139aa4f0SVijay Khemka static void logCPUThermalSts(uint8_t* data, std::string& errLog) 622139aa4f0SVijay Khemka { 623139aa4f0SVijay Khemka switch (data[0]) 624139aa4f0SVijay Khemka { 625139aa4f0SVijay Khemka case 0x0: 626139aa4f0SVijay Khemka errLog = "CPU Critical Temperature"; 627139aa4f0SVijay Khemka break; 628139aa4f0SVijay Khemka case 0x1: 629139aa4f0SVijay Khemka errLog = "PROCHOT#"; 630139aa4f0SVijay Khemka break; 631139aa4f0SVijay Khemka case 0x2: 632139aa4f0SVijay Khemka errLog = "TCC Activation"; 633139aa4f0SVijay Khemka break; 634139aa4f0SVijay Khemka default: 635139aa4f0SVijay Khemka errLog = "Unknown"; 636139aa4f0SVijay Khemka } 637139aa4f0SVijay Khemka } 638139aa4f0SVijay Khemka 639139aa4f0SVijay Khemka static void logMEPwrState(uint8_t* data, std::string& errLog) 640139aa4f0SVijay Khemka { 641139aa4f0SVijay Khemka switch (data[0]) 642139aa4f0SVijay Khemka { 643139aa4f0SVijay Khemka case 0: 644139aa4f0SVijay Khemka errLog = "RUNNING"; 645139aa4f0SVijay Khemka break; 646139aa4f0SVijay Khemka case 2: 647139aa4f0SVijay Khemka errLog = "POWER_OFF"; 648139aa4f0SVijay Khemka break; 649139aa4f0SVijay Khemka default: 650139aa4f0SVijay Khemka errLog = "Unknown[" + std::to_string(data[0]) + "]"; 651139aa4f0SVijay Khemka break; 652139aa4f0SVijay Khemka } 653139aa4f0SVijay Khemka } 654139aa4f0SVijay Khemka 655139aa4f0SVijay Khemka static void logSPSFwHealth(uint8_t* data, std::string& errLog) 656139aa4f0SVijay Khemka { 657139aa4f0SVijay Khemka if ((data[0] & 0x0F) == 0x00) 658139aa4f0SVijay Khemka { 659139aa4f0SVijay Khemka const std::vector<std::string> tmpStr = { 660139aa4f0SVijay Khemka "Recovery GPIO forced", 661139aa4f0SVijay Khemka "Image execution failed", 662139aa4f0SVijay Khemka "Flash erase error", 663139aa4f0SVijay Khemka "Flash state information", 664139aa4f0SVijay Khemka "Internal error", 665139aa4f0SVijay Khemka "BMC did not respond", 666139aa4f0SVijay Khemka "Direct Flash update", 667139aa4f0SVijay Khemka "Manufacturing error", 668139aa4f0SVijay Khemka "Automatic Restore to Factory Presets", 669139aa4f0SVijay Khemka "Firmware Exception", 670139aa4f0SVijay Khemka "Flash Wear-Out Protection Warning", 671139aa4f0SVijay Khemka "Unknown", 672139aa4f0SVijay Khemka "Unknown", 673139aa4f0SVijay Khemka "DMI interface error", 674139aa4f0SVijay Khemka "MCTP interface error", 675139aa4f0SVijay Khemka "Auto-configuration finished", 676139aa4f0SVijay Khemka "Unsupported Segment Defined Feature", 677139aa4f0SVijay Khemka "Unknown", 678139aa4f0SVijay Khemka "CPU Debug Capability Disabled", 679139aa4f0SVijay Khemka "UMA operation error"}; 680139aa4f0SVijay Khemka 681139aa4f0SVijay Khemka if (data[1] < 0x14) 682139aa4f0SVijay Khemka { 683139aa4f0SVijay Khemka errLog = tmpStr[data[1]]; 684139aa4f0SVijay Khemka } 685139aa4f0SVijay Khemka else 686139aa4f0SVijay Khemka { 687139aa4f0SVijay Khemka errLog = "Unknown"; 688139aa4f0SVijay Khemka } 689139aa4f0SVijay Khemka } 690139aa4f0SVijay Khemka else if ((data[0] & 0x0F) == 0x01) 691139aa4f0SVijay Khemka { 692139aa4f0SVijay Khemka errLog = "SMBus link failure"; 693139aa4f0SVijay Khemka } 694139aa4f0SVijay Khemka else 695139aa4f0SVijay Khemka { 696139aa4f0SVijay Khemka errLog = "Unknown"; 697139aa4f0SVijay Khemka } 698139aa4f0SVijay Khemka } 699139aa4f0SVijay Khemka 700139aa4f0SVijay Khemka static void logNmExcA(uint8_t* data, std::string& errLog) 701139aa4f0SVijay Khemka { 702139aa4f0SVijay Khemka /*NM4.0 #550710, Revision 1.95, and turn to p.155*/ 703139aa4f0SVijay Khemka if (data[0] == 0xA8) 704139aa4f0SVijay Khemka { 705139aa4f0SVijay Khemka errLog = "Policy Correction Time Exceeded"; 706139aa4f0SVijay Khemka } 707139aa4f0SVijay Khemka else 708139aa4f0SVijay Khemka { 709139aa4f0SVijay Khemka errLog = "Unknown"; 710139aa4f0SVijay Khemka } 711139aa4f0SVijay Khemka } 712139aa4f0SVijay Khemka 713139aa4f0SVijay Khemka static void logPCHThermal(uint8_t* data, std::string& errLog) 714139aa4f0SVijay Khemka { 715139aa4f0SVijay Khemka const std::vector<std::string> thresEvtName = {"Lower Non-critical", 716139aa4f0SVijay Khemka "Unknown", 717139aa4f0SVijay Khemka "Lower Critical", 718139aa4f0SVijay Khemka "Unknown", 719139aa4f0SVijay Khemka "Lower Non-recoverable", 720139aa4f0SVijay Khemka "Unknown", 721139aa4f0SVijay Khemka "Unknown", 722139aa4f0SVijay Khemka "Upper Non-critical", 723139aa4f0SVijay Khemka "Unknown", 724139aa4f0SVijay Khemka "Upper Critical", 725139aa4f0SVijay Khemka "Unknown", 726139aa4f0SVijay Khemka "Upper Non-recoverable"}; 727139aa4f0SVijay Khemka 728139aa4f0SVijay Khemka if ((data[0] & 0x0f) < 12) 729139aa4f0SVijay Khemka { 730139aa4f0SVijay Khemka errLog = thresEvtName[(data[0] & 0x0f)]; 731139aa4f0SVijay Khemka } 732139aa4f0SVijay Khemka else 733139aa4f0SVijay Khemka { 734139aa4f0SVijay Khemka errLog = "Unknown"; 735139aa4f0SVijay Khemka } 736139aa4f0SVijay Khemka 737139aa4f0SVijay Khemka errLog += ", curr_val: " + std::to_string(data[1]) + 738139aa4f0SVijay Khemka " C, thresh_val: " + std::to_string(data[2]) + " C"; 739139aa4f0SVijay Khemka } 740139aa4f0SVijay Khemka 741139aa4f0SVijay Khemka static void logNmHealth(uint8_t* data, std::string& errLog) 742139aa4f0SVijay Khemka { 743139aa4f0SVijay Khemka std::vector<std::string> nmErrType = { 744139aa4f0SVijay Khemka "Unknown", 745139aa4f0SVijay Khemka "Unknown", 746139aa4f0SVijay Khemka "Unknown", 747139aa4f0SVijay Khemka "Unknown", 748139aa4f0SVijay Khemka "Unknown", 749139aa4f0SVijay Khemka "Unknown", 750139aa4f0SVijay Khemka "Unknown", 751139aa4f0SVijay Khemka "Extended Telemetry Device Reading Failure", 752139aa4f0SVijay Khemka "Outlet Temperature Reading Failure", 753139aa4f0SVijay Khemka "Volumetric Airflow Reading Failure", 754139aa4f0SVijay Khemka "Policy Misconfiguration", 755139aa4f0SVijay Khemka "Power Sensor Reading Failure", 756139aa4f0SVijay Khemka "Inlet Temperature Reading Failure", 757139aa4f0SVijay Khemka "Host Communication Error", 758139aa4f0SVijay Khemka "Real-time Clock Synchronization Failure", 759139aa4f0SVijay Khemka "Platform Shutdown Initiated by Intel NM Policy", 760139aa4f0SVijay Khemka "Unknown"}; 761139aa4f0SVijay Khemka uint8_t nmTypeIdx = (data[0] & 0xf); 762139aa4f0SVijay Khemka uint8_t domIdx = (data[1] & 0xf); 763139aa4f0SVijay Khemka uint8_t errIdx = ((data[1] >> 4) & 0xf); 764139aa4f0SVijay Khemka 765139aa4f0SVijay Khemka if (nmTypeIdx == 2) 766139aa4f0SVijay Khemka { 767139aa4f0SVijay Khemka errLog = "SensorIntelNM"; 768139aa4f0SVijay Khemka } 769139aa4f0SVijay Khemka else 770139aa4f0SVijay Khemka { 771139aa4f0SVijay Khemka errLog = "Unknown"; 772139aa4f0SVijay Khemka } 773139aa4f0SVijay Khemka 774139aa4f0SVijay Khemka errLog += ", Domain:" + nmDomName[domIdx] + 775139aa4f0SVijay Khemka ", ErrType:" + nmErrType[errIdx] + ", Err:0x" + 776139aa4f0SVijay Khemka byteToStr(data[2]); 777139aa4f0SVijay Khemka } 778139aa4f0SVijay Khemka 779139aa4f0SVijay Khemka static void logNmCap(uint8_t* data, std::string& errLog) 780139aa4f0SVijay Khemka { 781139aa4f0SVijay Khemka const std::vector<std::string> nmCapStsStr = {"Not Available", "Available"}; 782139aa4f0SVijay Khemka if (data[0] & 0x7) // BIT1=policy, BIT2=monitoring, BIT3=pwr 783139aa4f0SVijay Khemka // limit and the others are reserved 784139aa4f0SVijay Khemka { 785139aa4f0SVijay Khemka errLog = "PolicyInterface:" + nmCapStsStr[BIT(data[0], 0)] + 786139aa4f0SVijay Khemka ",Monitoring:" + nmCapStsStr[BIT(data[0], 1)] + 787139aa4f0SVijay Khemka ",PowerLimit:" + nmCapStsStr[BIT(data[0], 2)]; 788139aa4f0SVijay Khemka } 789139aa4f0SVijay Khemka else 790139aa4f0SVijay Khemka { 791139aa4f0SVijay Khemka errLog = "Unknown"; 792139aa4f0SVijay Khemka } 793139aa4f0SVijay Khemka } 794139aa4f0SVijay Khemka 795139aa4f0SVijay Khemka static void logNmThreshold(uint8_t* data, std::string& errLog) 796139aa4f0SVijay Khemka { 797139aa4f0SVijay Khemka uint8_t thresNum = (data[0] & 0x3); 798139aa4f0SVijay Khemka uint8_t domIdx = (data[1] & 0xf); 799139aa4f0SVijay Khemka uint8_t polId = data[2]; 800139aa4f0SVijay Khemka uint8_t polEvtIdx = BIT(data[0], 3); 801139aa4f0SVijay Khemka const std::vector<std::string> polEvtStr = { 802139aa4f0SVijay Khemka "Threshold Exceeded", "Policy Correction Time Exceeded"}; 803139aa4f0SVijay Khemka 804139aa4f0SVijay Khemka errLog = "Threshold Number:" + std::to_string(thresNum) + "-" + 805139aa4f0SVijay Khemka polEvtStr[polEvtIdx] + ", Domain:" + nmDomName[domIdx] + 806139aa4f0SVijay Khemka ", PolicyID:0x" + byteToStr(polId); 807139aa4f0SVijay Khemka } 808139aa4f0SVijay Khemka 809139aa4f0SVijay Khemka static void logPwrThreshold(uint8_t* data, std::string& errLog) 810139aa4f0SVijay Khemka { 811139aa4f0SVijay Khemka if (data[0] == 0x00) 812139aa4f0SVijay Khemka { 813139aa4f0SVijay Khemka errLog = "Limit Not Exceeded"; 814139aa4f0SVijay Khemka } 815139aa4f0SVijay Khemka else if (data[0] == 0x01) 816139aa4f0SVijay Khemka { 817139aa4f0SVijay Khemka errLog = "Limit Exceeded"; 818139aa4f0SVijay Khemka } 819139aa4f0SVijay Khemka else 820139aa4f0SVijay Khemka { 821139aa4f0SVijay Khemka errLog = "Unknown"; 822139aa4f0SVijay Khemka } 823139aa4f0SVijay Khemka } 824139aa4f0SVijay Khemka 825139aa4f0SVijay Khemka static void logMSMI(uint8_t* data, std::string& errLog) 826139aa4f0SVijay Khemka { 827139aa4f0SVijay Khemka if (data[0] == 0x0) 828139aa4f0SVijay Khemka { 829139aa4f0SVijay Khemka errLog = "IERR/MSMI"; 830139aa4f0SVijay Khemka } 831139aa4f0SVijay Khemka else if (data[0] == 0x0B) 832139aa4f0SVijay Khemka { 833139aa4f0SVijay Khemka errLog = "MCERR/MSMI"; 834139aa4f0SVijay Khemka } 835139aa4f0SVijay Khemka else 836139aa4f0SVijay Khemka { 837139aa4f0SVijay Khemka errLog = "Unknown"; 838139aa4f0SVijay Khemka } 839139aa4f0SVijay Khemka } 840139aa4f0SVijay Khemka 841139aa4f0SVijay Khemka static void logHprWarn(uint8_t* data, std::string& errLog) 842139aa4f0SVijay Khemka { 843139aa4f0SVijay Khemka if (data[2] == 0x01) 844139aa4f0SVijay Khemka { 845139aa4f0SVijay Khemka if (data[1] == 0xFF) 846139aa4f0SVijay Khemka { 847139aa4f0SVijay Khemka errLog = "Infinite Time"; 848139aa4f0SVijay Khemka } 849139aa4f0SVijay Khemka else 850139aa4f0SVijay Khemka { 851139aa4f0SVijay Khemka errLog = std::to_string(data[1]) + " minutes"; 852139aa4f0SVijay Khemka } 853139aa4f0SVijay Khemka } 854139aa4f0SVijay Khemka else 855139aa4f0SVijay Khemka { 856139aa4f0SVijay Khemka errLog = "Unknown"; 857139aa4f0SVijay Khemka } 858139aa4f0SVijay Khemka } 859139aa4f0SVijay Khemka 860139aa4f0SVijay Khemka static const boost::container::flat_map< 861139aa4f0SVijay Khemka uint8_t, 862139aa4f0SVijay Khemka std::pair<std::string, std::function<void(uint8_t*, std::string&)>>> 863139aa4f0SVijay Khemka sensorNameTable = {{0xE9, {"SYSTEM_EVENT", logSysEvent}}, 864139aa4f0SVijay Khemka {0x7D, {"THERM_THRESH_EVT", logThermalEvent}}, 865139aa4f0SVijay Khemka {0xAA, {"BUTTON", logDefault}}, 866139aa4f0SVijay Khemka {0xAB, {"POWER_STATE", logDefault}}, 867139aa4f0SVijay Khemka {0xEA, {"CRITICAL_IRQ", logCritIrq}}, 868139aa4f0SVijay Khemka {0x2B, {"POST_ERROR", logPostErr}}, 869139aa4f0SVijay Khemka {0x40, {"MACHINE_CHK_ERR", logMchChkErr}}, 870139aa4f0SVijay Khemka {0x41, {"PCIE_ERR", logPcieErr}}, 871139aa4f0SVijay Khemka {0x43, {"IIO_ERR", logIioErr}}, 872139aa4f0SVijay Khemka {0X63, {"MEMORY_ECC_ERR", logDefault}}, 873139aa4f0SVijay Khemka {0X87, {"MEMORY_ERR_LOG_DIS", logDefault}}, 874139aa4f0SVijay Khemka {0X51, {"PROCHOT_EXT", logDefault}}, 875139aa4f0SVijay Khemka {0X56, {"PWR_ERR", logPwrErr}}, 876139aa4f0SVijay Khemka {0xE6, {"CATERR_A", logCatErr}}, 877139aa4f0SVijay Khemka {0xEB, {"CATERR_B", logCatErr}}, 878139aa4f0SVijay Khemka {0xB3, {"CPU_DIMM_HOT", logDimmHot}}, 879139aa4f0SVijay Khemka {0x90, {"SOFTWARE_NMI", logSwNMI}}, 880139aa4f0SVijay Khemka {0x1C, {"CPU0_THERM_STATUS", logCPUThermalSts}}, 881139aa4f0SVijay Khemka {0x1D, {"CPU1_THERM_STATUS", logCPUThermalSts}}, 882139aa4f0SVijay Khemka {0x16, {"ME_POWER_STATE", logMEPwrState}}, 883139aa4f0SVijay Khemka {0x17, {"SPS_FW_HEALTH", logSPSFwHealth}}, 884139aa4f0SVijay Khemka {0x18, {"NM_EXCEPTION_A", logNmExcA}}, 885139aa4f0SVijay Khemka {0x08, {"PCH_THERM_THRESHOLD", logPCHThermal}}, 886139aa4f0SVijay Khemka {0x19, {"NM_HEALTH", logNmHealth}}, 887139aa4f0SVijay Khemka {0x1A, {"NM_CAPABILITIES", logNmCap}}, 888139aa4f0SVijay Khemka {0x1B, {"NM_THRESHOLD", logNmThreshold}}, 889139aa4f0SVijay Khemka {0x3B, {"PWR_THRESH_EVT", logPwrThreshold}}, 890139aa4f0SVijay Khemka {0xE7, {"MSMI", logMSMI}}, 891139aa4f0SVijay Khemka {0xC5, {"HPR_WARNING", logHprWarn}}}; 892139aa4f0SVijay Khemka 893139aa4f0SVijay Khemka static void parseSelHelper(StdSELEntry* data, std::string& errStr) 894139aa4f0SVijay Khemka { 895139aa4f0SVijay Khemka /* Check if sensor type is OS_BOOT (0x1f) */ 896139aa4f0SVijay Khemka if (data->sensorType == 0x1F) 897139aa4f0SVijay Khemka { 898139aa4f0SVijay Khemka /* OS_BOOT used by OS */ 899139aa4f0SVijay Khemka switch (data->eventData1 & 0xF) 900139aa4f0SVijay Khemka { 901139aa4f0SVijay Khemka case 0x07: 902139aa4f0SVijay Khemka errStr = "Base OS/Hypervisor Installation started"; 903139aa4f0SVijay Khemka break; 904139aa4f0SVijay Khemka case 0x08: 905139aa4f0SVijay Khemka errStr = "Base OS/Hypervisor Installation completed"; 906139aa4f0SVijay Khemka break; 907139aa4f0SVijay Khemka case 0x09: 908139aa4f0SVijay Khemka errStr = "Base OS/Hypervisor Installation aborted"; 909139aa4f0SVijay Khemka break; 910139aa4f0SVijay Khemka case 0x0A: 911139aa4f0SVijay Khemka errStr = "Base OS/Hypervisor Installation failed"; 912139aa4f0SVijay Khemka break; 913139aa4f0SVijay Khemka default: 914139aa4f0SVijay Khemka errStr = "Unknown"; 915139aa4f0SVijay Khemka } 916139aa4f0SVijay Khemka return; 917139aa4f0SVijay Khemka } 918139aa4f0SVijay Khemka 919139aa4f0SVijay Khemka auto findSensorName = sensorNameTable.find(data->sensorNum); 920139aa4f0SVijay Khemka if (findSensorName == sensorNameTable.end()) 921139aa4f0SVijay Khemka { 922139aa4f0SVijay Khemka errStr = "Unknown"; 923139aa4f0SVijay Khemka return; 924139aa4f0SVijay Khemka } 925139aa4f0SVijay Khemka else 926139aa4f0SVijay Khemka { 927139aa4f0SVijay Khemka switch (data->sensorNum) 928139aa4f0SVijay Khemka { 929139aa4f0SVijay Khemka /* logMemErr function needs data from sensor type */ 930139aa4f0SVijay Khemka case memoryEccError: 931139aa4f0SVijay Khemka case memoryErrLogDIS: 932139aa4f0SVijay Khemka findSensorName->second.second(&(data->sensorType), errStr); 933139aa4f0SVijay Khemka break; 934139aa4f0SVijay Khemka /* Other sensor function needs only event data for parsing */ 935139aa4f0SVijay Khemka default: 936139aa4f0SVijay Khemka findSensorName->second.second(&(data->eventData1), errStr); 937139aa4f0SVijay Khemka } 938139aa4f0SVijay Khemka } 939139aa4f0SVijay Khemka 940139aa4f0SVijay Khemka if (((data->eventData3 & 0x80) >> 7) == 0) 941139aa4f0SVijay Khemka { 942139aa4f0SVijay Khemka errStr += " Assertion"; 943139aa4f0SVijay Khemka } 944139aa4f0SVijay Khemka else 945139aa4f0SVijay Khemka { 946139aa4f0SVijay Khemka errStr += " Deassertion"; 947139aa4f0SVijay Khemka } 948139aa4f0SVijay Khemka } 949139aa4f0SVijay Khemka 950c056dc00SManikandan Elumalai static void parseDimmPhyloc(StdSELEntry* data, std::string& errStr) 951c056dc00SManikandan Elumalai { 952c056dc00SManikandan Elumalai // Log when " All info available" 953c056dc00SManikandan Elumalai uint8_t chNum = (data->eventData3 & 0x18) >> 3; 954c056dc00SManikandan Elumalai uint8_t dimmNum = data->eventData3 & 0x7; 955c056dc00SManikandan Elumalai uint8_t rankNum = data->eventData2 & 0x03; 956c056dc00SManikandan Elumalai uint8_t nodeNum = (data->eventData3 & 0xE0) >> 5; 957c056dc00SManikandan Elumalai 958c056dc00SManikandan Elumalai if (chNum == 3 && dimmNum == 0) 959c056dc00SManikandan Elumalai { 960c056dc00SManikandan Elumalai errStr += " Node: " + std::to_string(nodeNum) + "," + 961c056dc00SManikandan Elumalai " Card: " + std::to_string(chNum) + "," + 962c056dc00SManikandan Elumalai " Module: " + std::to_string(dimmNum) + "," + 963c056dc00SManikandan Elumalai " Rank Number: " + std::to_string(rankNum) + "," + 964c056dc00SManikandan Elumalai " Location: DIMM A0"; 965c056dc00SManikandan Elumalai } 966c056dc00SManikandan Elumalai else if (chNum == 2 && dimmNum == 0) 967c056dc00SManikandan Elumalai { 968c056dc00SManikandan Elumalai errStr += " Node: " + std::to_string(nodeNum) + "," + 969c056dc00SManikandan Elumalai " Card: " + std::to_string(chNum) + "," + 970c056dc00SManikandan Elumalai " Module: " + std::to_string(dimmNum) + "," + 971c056dc00SManikandan Elumalai " Rank Number: " + std::to_string(rankNum) + "," + 972c056dc00SManikandan Elumalai " Location: DIMM B0"; 973c056dc00SManikandan Elumalai } 974c056dc00SManikandan Elumalai else if (chNum == 4 && dimmNum == 0) 975c056dc00SManikandan Elumalai { 976c056dc00SManikandan Elumalai errStr += " Node: " + std::to_string(nodeNum) + "," + 977c056dc00SManikandan Elumalai " Card: " + std::to_string(chNum) + "," + 978c056dc00SManikandan Elumalai " Module: " + std::to_string(dimmNum) + "," + 979c056dc00SManikandan Elumalai " Rank Number: " + std::to_string(rankNum) + "," + 980c056dc00SManikandan Elumalai " Location: DIMM C0 "; 981c056dc00SManikandan Elumalai } 982c056dc00SManikandan Elumalai else if (chNum == 5 && dimmNum == 0) 983c056dc00SManikandan Elumalai { 984c056dc00SManikandan Elumalai errStr += " Node: " + std::to_string(nodeNum) + "," + 985c056dc00SManikandan Elumalai " Card: " + std::to_string(chNum) + "," + 986c056dc00SManikandan Elumalai " Module: " + std::to_string(dimmNum) + "," + 987c056dc00SManikandan Elumalai " Rank Number: " + std::to_string(rankNum) + "," + 988c056dc00SManikandan Elumalai " Location: DIMM D0"; 989c056dc00SManikandan Elumalai } 990c056dc00SManikandan Elumalai else 991c056dc00SManikandan Elumalai { 992c056dc00SManikandan Elumalai errStr += " Node: " + std::to_string(nodeNum) + "," + 993c056dc00SManikandan Elumalai " Card: " + std::to_string(chNum) + "," + 994c056dc00SManikandan Elumalai " Module: " + std::to_string(dimmNum) + "," + 995c056dc00SManikandan Elumalai " Rank Number: " + std::to_string(rankNum) + "," + 996*519530beSManojkiran Eda " Location: DIMM Unknown"; 997c056dc00SManikandan Elumalai } 998c056dc00SManikandan Elumalai } 999c056dc00SManikandan Elumalai 1000f36f345fSVijay Khemka static void parseStdSel(StdSELEntry* data, std::string& errStr) 1001f36f345fSVijay Khemka { 1002f36f345fSVijay Khemka std::stringstream tmpStream; 1003f36f345fSVijay Khemka tmpStream << std::hex << std::uppercase; 1004f36f345fSVijay Khemka 1005f36f345fSVijay Khemka /* TODO: add pal_add_cri_sel */ 1006f36f345fSVijay Khemka switch (data->sensorNum) 1007f36f345fSVijay Khemka { 1008f36f345fSVijay Khemka case memoryEccError: 1009f36f345fSVijay Khemka switch (data->eventData1 & 0x0F) 1010f36f345fSVijay Khemka { 1011f36f345fSVijay Khemka case 0x00: 1012f36f345fSVijay Khemka errStr = "Correctable"; 1013f36f345fSVijay Khemka tmpStream << "DIMM" << std::setw(2) << std::setfill('0') 1014f36f345fSVijay Khemka << data->eventData3 << " ECC err"; 1015c056dc00SManikandan Elumalai parseDimmPhyloc(data, errStr); 1016f36f345fSVijay Khemka break; 1017f36f345fSVijay Khemka case 0x01: 1018f36f345fSVijay Khemka errStr = "Uncorrectable"; 1019f36f345fSVijay Khemka tmpStream << "DIMM" << std::setw(2) << std::setfill('0') 1020f36f345fSVijay Khemka << data->eventData3 << " UECC err"; 1021c056dc00SManikandan Elumalai parseDimmPhyloc(data, errStr); 1022f36f345fSVijay Khemka break; 1023f36f345fSVijay Khemka case 0x02: 1024f36f345fSVijay Khemka errStr = "Parity"; 1025f36f345fSVijay Khemka break; 1026f36f345fSVijay Khemka case 0x05: 1027f36f345fSVijay Khemka errStr = "Correctable ECC error Logging Limit Reached"; 1028f36f345fSVijay Khemka break; 1029f36f345fSVijay Khemka default: 1030f36f345fSVijay Khemka errStr = "Unknown"; 1031f36f345fSVijay Khemka } 1032f36f345fSVijay Khemka break; 1033f36f345fSVijay Khemka case memoryErrLogDIS: 1034f36f345fSVijay Khemka if ((data->eventData1 & 0x0F) == 0) 1035f36f345fSVijay Khemka { 1036f36f345fSVijay Khemka errStr = "Correctable Memory Error Logging Disabled"; 1037f36f345fSVijay Khemka } 1038f36f345fSVijay Khemka else 1039f36f345fSVijay Khemka { 1040f36f345fSVijay Khemka errStr = "Unknown"; 1041f36f345fSVijay Khemka } 1042f36f345fSVijay Khemka break; 1043f36f345fSVijay Khemka default: 1044139aa4f0SVijay Khemka parseSelHelper(data, errStr); 1045f36f345fSVijay Khemka return; 1046f36f345fSVijay Khemka } 1047f36f345fSVijay Khemka 1048f36f345fSVijay Khemka errStr += " (DIMM " + std::to_string(data->eventData3) + ")"; 1049f36f345fSVijay Khemka errStr += " Logical Rank " + std::to_string(data->eventData2 & 0x03); 1050f36f345fSVijay Khemka 1051f36f345fSVijay Khemka switch ((data->eventData2 & 0x0C) >> 2) 1052f36f345fSVijay Khemka { 1053f36f345fSVijay Khemka case 0x00: 1054f36f345fSVijay Khemka // Ignore when " All info available" 1055f36f345fSVijay Khemka break; 1056f36f345fSVijay Khemka case 0x01: 1057f36f345fSVijay Khemka errStr += " DIMM info not valid"; 1058f36f345fSVijay Khemka break; 1059f36f345fSVijay Khemka case 0x02: 1060f36f345fSVijay Khemka errStr += " CHN info not valid"; 1061f36f345fSVijay Khemka break; 1062f36f345fSVijay Khemka case 0x03: 1063f36f345fSVijay Khemka errStr += " CPU info not valid"; 1064f36f345fSVijay Khemka break; 1065f36f345fSVijay Khemka default: 1066f36f345fSVijay Khemka errStr += " Unknown"; 1067f36f345fSVijay Khemka } 1068f36f345fSVijay Khemka 1069f36f345fSVijay Khemka if (((data->eventType & 0x80) >> 7) == 0) 1070f36f345fSVijay Khemka { 1071f36f345fSVijay Khemka errStr += " Assertion"; 1072f36f345fSVijay Khemka } 1073f36f345fSVijay Khemka else 1074f36f345fSVijay Khemka { 1075f36f345fSVijay Khemka errStr += " Deassertion"; 1076f36f345fSVijay Khemka } 1077f36f345fSVijay Khemka 1078f36f345fSVijay Khemka return; 1079f36f345fSVijay Khemka } 1080f36f345fSVijay Khemka 1081f36f345fSVijay Khemka static void parseOemSel(TsOemSELEntry* data, std::string& errStr) 1082f36f345fSVijay Khemka { 1083f36f345fSVijay Khemka std::stringstream tmpStream; 1084f36f345fSVijay Khemka tmpStream << std::hex << std::uppercase << std::setfill('0'); 1085f36f345fSVijay Khemka 1086f36f345fSVijay Khemka switch (data->recordType) 1087f36f345fSVijay Khemka { 1088f36f345fSVijay Khemka case 0xC0: 1089f36f345fSVijay Khemka tmpStream << "VID:0x" << std::setw(2) << (int)data->oemData[1] 1090f36f345fSVijay Khemka << std::setw(2) << (int)data->oemData[0] << " DID:0x" 1091f36f345fSVijay Khemka << std::setw(2) << (int)data->oemData[3] << std::setw(2) 1092f36f345fSVijay Khemka << (int)data->oemData[2] << " Slot:0x" << std::setw(2) 1093f36f345fSVijay Khemka << (int)data->oemData[4] << " Error ID:0x" << std::setw(2) 1094f36f345fSVijay Khemka << (int)data->oemData[5]; 1095f36f345fSVijay Khemka break; 1096f36f345fSVijay Khemka case 0xC2: 1097f36f345fSVijay Khemka tmpStream << "Extra info:0x" << std::setw(2) 1098f36f345fSVijay Khemka << (int)data->oemData[1] << " MSCOD:0x" << std::setw(2) 1099f36f345fSVijay Khemka << (int)data->oemData[3] << std::setw(2) 1100f36f345fSVijay Khemka << (int)data->oemData[2] << " MCACOD:0x" << std::setw(2) 1101f36f345fSVijay Khemka << (int)data->oemData[5] << std::setw(2) 1102f36f345fSVijay Khemka << (int)data->oemData[4]; 1103f36f345fSVijay Khemka break; 1104f36f345fSVijay Khemka case 0xC3: 1105f36f345fSVijay Khemka int bank = (data->oemData[1] & 0xf0) >> 4; 1106f36f345fSVijay Khemka int col = ((data->oemData[1] & 0x0f) << 8) | data->oemData[2]; 1107f36f345fSVijay Khemka 1108f36f345fSVijay Khemka tmpStream << "Fail Device:0x" << std::setw(2) 1109f36f345fSVijay Khemka << (int)data->oemData[0] << " Bank:0x" << std::setw(2) 1110f36f345fSVijay Khemka << bank << " Column:0x" << std::setw(2) << col 1111f36f345fSVijay Khemka << " Failed Row:0x" << std::setw(2) 1112f36f345fSVijay Khemka << (int)data->oemData[3] << std::setw(2) 1113f36f345fSVijay Khemka << (int)data->oemData[4] << std::setw(2) 1114f36f345fSVijay Khemka << (int)data->oemData[5]; 1115f36f345fSVijay Khemka } 1116f36f345fSVijay Khemka 1117f36f345fSVijay Khemka errStr = tmpStream.str(); 1118f36f345fSVijay Khemka 1119f36f345fSVijay Khemka return; 1120f36f345fSVijay Khemka } 1121f36f345fSVijay Khemka 11227451903cScchoux static std::string dimmLocationStr(uint8_t socket, uint8_t channel, 11237451903cScchoux uint8_t slot) 11247451903cScchoux { 11257451903cScchoux uint8_t sled = (socket >> 4) & 0x3; 11267451903cScchoux 11277451903cScchoux socket &= 0xf; 11287451903cScchoux if (channel == 0xFF && slot == 0xFF) 11297451903cScchoux { 11307451903cScchoux return std::format( 11317451903cScchoux "DIMM Slot Location: Sled {:02}/Socket {:02}, Channel unknown" 11327451903cScchoux ", Slot unknown, DIMM unknown", 11337451903cScchoux sled, socket); 11347451903cScchoux } 11357451903cScchoux else 11367451903cScchoux { 11377451903cScchoux channel &= 0xf; 11387451903cScchoux slot &= 0xf; 11397451903cScchoux const char label[] = {'A', 'C', 'B', 'D'}; 11407451903cScchoux uint8_t idx = socket * 2 + slot; 11417451903cScchoux return std::format("DIMM Slot Location: Sled {:02}/Socket {:02}" 11427451903cScchoux ", Channel {:02}, Slot {:02} DIMM {}", 11437451903cScchoux sled, socket, channel, slot, 11447451903cScchoux (idx < sizeof(label)) 11457451903cScchoux ? label[idx] + std::to_string(channel) 11467451903cScchoux : "NA"); 11477451903cScchoux } 11487451903cScchoux } 11497451903cScchoux 115034a875f3SVijay Khemka static void parseOemUnifiedSel(NtsOemSELEntry* data, std::string& errStr) 115134a875f3SVijay Khemka { 115234a875f3SVijay Khemka uint8_t* ptr = data->oemData; 11537451903cScchoux uint8_t eventType = ptr[5] & 0xf; 115434a875f3SVijay Khemka int genInfo = ptr[0]; 115534a875f3SVijay Khemka int errType = genInfo & 0x0f; 11567451903cScchoux std::vector<std::string> dimmErr = { 11577451903cScchoux "Memory training failure", 11587451903cScchoux "Memory correctable error", 11597451903cScchoux "Memory uncorrectable error", 11607451903cScchoux "Memory correctable error (Patrol scrub)", 11617451903cScchoux "Memory uncorrectable error (Patrol scrub)", 11627451903cScchoux "Memory Parity Error (PCC=0)", 11637451903cScchoux "Memory Parity Error (PCC=1)", 11647451903cScchoux "Memory PMIC Error", 11657451903cScchoux "CXL Memory training error", 11667451903cScchoux "Reserved"}; 11677451903cScchoux std::vector<std::string> postEvent = { 11687451903cScchoux "System PXE boot fail", 11697451903cScchoux "CMOS/NVRAM configuration cleared", 11707451903cScchoux "TPM Self-Test Fail", 11717451903cScchoux "Boot Drive failure", 11727451903cScchoux "Data Drive failure", 11737451903cScchoux "Received invalid boot order request from BMC", 11747451903cScchoux "System HTTP boot fail", 11757451903cScchoux "BIOS fails to get the certificate from BMC", 11767451903cScchoux "Password cleared by jumper", 11777451903cScchoux "DXE FV check failure", 11787451903cScchoux "AMD ABL failure", 11797451903cScchoux "Reserved"}; 11807451903cScchoux std::vector<std::string> certErr = { 11817451903cScchoux "No certificate at BMC", "IPMI transaction fail", 11827451903cScchoux "Certificate data corrupted", "Reserved"}; 11837451903cScchoux std::vector<std::string> pcieEvent = {"PCIe DPC Event", 11847451903cScchoux "PCIe LER Event", 11857451903cScchoux "PCIe Link Retraining and Recovery", 11867451903cScchoux "PCIe Link CRC Error Check and Retry", 11877451903cScchoux "PCIe Corrupt Data Containment", 11887451903cScchoux "PCIe Express ECRC", 11897451903cScchoux "Reserved"}; 11907451903cScchoux std::vector<std::string> memEvent = { 11917451903cScchoux "Memory PPR event", 11927451903cScchoux "Memory Correctable Error logging limit reached", 11937451903cScchoux "Memory disable/map-out for FRB", 11947451903cScchoux "Memory SDDC", 11957451903cScchoux "Memory Address range/Partial mirroring", 11967451903cScchoux "Memory ADDDC", 11977451903cScchoux "Memory SMBus hang recovery", 11987451903cScchoux "No DIMM in System", 11997451903cScchoux "Reserved"}; 12007451903cScchoux std::vector<std::string> memPprTime = {"Boot time", "Autonomous", 12017451903cScchoux "Run time", "Reserved"}; 12027451903cScchoux std::vector<std::string> memPpr = {"PPR success", "PPR fail", "PPR request", 12037451903cScchoux "Reserved"}; 12047451903cScchoux std::vector<std::string> memAdddc = {"Bank VLS", "r-Bank VLS + re-buddy", 12057451903cScchoux "r-Bank VLS + Rank VLS", 12067451903cScchoux "r-Rank VLS + re-buddy", "Reserved"}; 12077451903cScchoux std::vector<std::string> pprEvent = {"PPR disable", "Soft PPR", "Hard PPR", 12087451903cScchoux "Reserved"}; 120934a875f3SVijay Khemka 121034a875f3SVijay Khemka std::stringstream tmpStream; 121134a875f3SVijay Khemka 121234a875f3SVijay Khemka switch (errType) 121334a875f3SVijay Khemka { 121434a875f3SVijay Khemka case unifiedPcieErr: 12157451903cScchoux tmpStream << std::format( 12167451903cScchoux "GeneralInfo: x86/PCIeErr(0x{:02X})" 12177451903cScchoux ", Bus {:02X}/Dev {:02X}/Fun {:02X}, TotalErrID1Cnt: 0x{:04X}" 12187451903cScchoux ", ErrID2: 0x{:02X}, ErrID1: 0x{:02X}", 12197451903cScchoux genInfo, ptr[8], ptr[7] >> 3, ptr[7] & 0x7, 12207451903cScchoux (ptr[10] << 8) | ptr[9], ptr[11], ptr[12]); 122134a875f3SVijay Khemka break; 122234a875f3SVijay Khemka case unifiedMemErr: 12237451903cScchoux eventType = ptr[9] & 0xf; 12247451903cScchoux tmpStream << std::format( 12257451903cScchoux "GeneralInfo: MemErr(0x{:02X}), {}, DIMM Failure Event: {}", 12267451903cScchoux genInfo, dimmLocationStr(ptr[5], ptr[6], ptr[7]), 12277451903cScchoux dimmErr[std::min(eventType, 12287451903cScchoux static_cast<uint8_t>(dimmErr.size() - 1))]); 122934a875f3SVijay Khemka 12307451903cScchoux if (static_cast<MemErrType>(eventType) == MemErrType::memTrainErr || 12317451903cScchoux static_cast<MemErrType>(eventType) == MemErrType::memPmicErr) 12327451903cScchoux { 12337451903cScchoux bool amd = ptr[9] & 0x80; 12347451903cScchoux tmpStream << std::format( 12357451903cScchoux ", Major Code: 0x{:02X}, Minor Code: 0x{:0{}X}", ptr[10], 12367451903cScchoux amd ? (ptr[12] << 8 | ptr[11]) : ptr[11], amd ? 4 : 2); 12377451903cScchoux } 12387451903cScchoux break; 12397451903cScchoux case unifiedIioErr: 12407451903cScchoux tmpStream << std::format( 12417451903cScchoux "GeneralInfo: IIOErr(0x{:02X})" 12427451903cScchoux ", IIO Port Location: Sled {:02}/Socket {:02}, Stack 0x{:02X}" 12437451903cScchoux ", Error Type: 0x{:02X}, Error Severity: 0x{:02X}" 12447451903cScchoux ", Error ID: 0x{:02X}", 12457451903cScchoux genInfo, (ptr[5] >> 4) & 0x3, ptr[5] & 0xf, ptr[6], ptr[10], 12467451903cScchoux ptr[11] & 0xf, ptr[12]); 12477451903cScchoux break; 12487451903cScchoux case unifiedPostEvt: 12497451903cScchoux tmpStream << std::format( 12507451903cScchoux "GeneralInfo: POST(0x{:02X}), POST Failure Event: {}", genInfo, 12517451903cScchoux postEvent[std::min( 12527451903cScchoux eventType, static_cast<uint8_t>(postEvent.size() - 1))]); 12537451903cScchoux 12547451903cScchoux switch (static_cast<PostEvtType>(eventType)) 12557451903cScchoux { 12567451903cScchoux case PostEvtType::pxeBootFail: 12577451903cScchoux case PostEvtType::httpBootFail: 12587451903cScchoux { 12597451903cScchoux uint8_t failType = ptr[10] & 0xf; 12607451903cScchoux tmpStream 12617451903cScchoux << std::format(", Fail Type: {}, Error Code: 0x{:02X}", 12627451903cScchoux (failType == 4 || failType == 6) 12637451903cScchoux ? std::format("IPv{} fail", failType) 12647451903cScchoux : std::format("0x{:02X}", ptr[10]), 12657451903cScchoux ptr[11]); 12667451903cScchoux break; 12677451903cScchoux } 12687451903cScchoux case PostEvtType::getCertFail: 12697451903cScchoux tmpStream << std::format( 12707451903cScchoux ", Failure Detail: {}", 12717451903cScchoux certErr[std::min( 12727451903cScchoux ptr[9], static_cast<uint8_t>(certErr.size() - 1))]); 12737451903cScchoux break; 12747451903cScchoux case PostEvtType::amdAblFail: 12757451903cScchoux tmpStream << std::format(", ABL Error Code: 0x{:04X}", 12767451903cScchoux (ptr[12] << 8) | ptr[11]); 12777451903cScchoux break; 12787451903cScchoux } 12797451903cScchoux break; 12807451903cScchoux case unifiedPcieEvt: 12817451903cScchoux tmpStream << std::format( 12827451903cScchoux "GeneralInfo: PCIeEvent(0x{:02X}), PCIe Failure Event: {}", 12837451903cScchoux genInfo, 12847451903cScchoux pcieEvent[std::min( 12857451903cScchoux eventType, static_cast<uint8_t>(pcieEvent.size() - 1))]); 12867451903cScchoux 12877451903cScchoux if (static_cast<PcieEvtType>(eventType) == PcieEvtType::dpc) 12887451903cScchoux { 12897451903cScchoux tmpStream << std::format( 12907451903cScchoux ", Status: 0x{:04X}, Source ID: 0x{:04X}", 12917451903cScchoux (ptr[8] << 8) | ptr[7], (ptr[10] << 8) | ptr[9]); 12927451903cScchoux } 12937451903cScchoux break; 12947451903cScchoux case unifiedMemEvt: 12957451903cScchoux eventType = ptr[9] & 0xf; 12967451903cScchoux tmpStream << std::format("GeneralInfo: MemEvent(0x{:02X})", genInfo) 12977451903cScchoux << (static_cast<MemEvtType>(eventType) != 12987451903cScchoux MemEvtType::noDimm 12997451903cScchoux ? std::format(", {}", dimmLocationStr( 13007451903cScchoux ptr[5], ptr[6], ptr[7])) 13017451903cScchoux : "") 13027451903cScchoux << ", DIMM Failure Event: "; 13037451903cScchoux 13047451903cScchoux switch (static_cast<MemEvtType>(eventType)) 13057451903cScchoux { 13067451903cScchoux case MemEvtType::ppr: 13077451903cScchoux tmpStream << std::format("{} {}", 13087451903cScchoux memPprTime[(ptr[10] >> 2) & 0x3], 13097451903cScchoux memPpr[ptr[10] & 0x3]); 13107451903cScchoux break; 13117451903cScchoux case MemEvtType::adddc: 13127451903cScchoux tmpStream << std::format( 13137451903cScchoux "{} {}", 13147451903cScchoux memEvent[std::min(eventType, static_cast<uint8_t>( 13157451903cScchoux memEvent.size() - 1))], 13167451903cScchoux memAdddc[std::min( 13177451903cScchoux static_cast<uint8_t>(ptr[11] & 0xf), 13187451903cScchoux static_cast<uint8_t>(memAdddc.size() - 1))]); 13197451903cScchoux break; 13207451903cScchoux default: 13217451903cScchoux tmpStream << std::format( 13227451903cScchoux "{}", memEvent[std::min( 13237451903cScchoux eventType, 13247451903cScchoux static_cast<uint8_t>(memEvent.size() - 1))]); 13257451903cScchoux break; 13267451903cScchoux } 13277451903cScchoux break; 13287451903cScchoux case unifiedBootGuard: 13297451903cScchoux tmpStream << std::format( 13307451903cScchoux "GeneralInfo: Boot Guard ACM Failure Events(0x{:02X})" 13317451903cScchoux ", Error Class: 0x{:02X}, Error Code: 0x{:02X}", 13327451903cScchoux genInfo, ptr[9], ptr[10]); 13337451903cScchoux break; 13347451903cScchoux case unifiedPprEvt: 13357451903cScchoux tmpStream << std::format( 13367451903cScchoux "GeneralInfo: PPREvent(0x{:02X}), {}" 13377451903cScchoux ", DIMM Info: {:02X}{:02X}{:02X}{:02X}{:02X}{:02X}{:02X}", 13387451903cScchoux genInfo, 13397451903cScchoux pprEvent[std::min(eventType, 13407451903cScchoux static_cast<uint8_t>(pprEvent.size() - 1))], 13417451903cScchoux ptr[6], ptr[7], ptr[8], ptr[9], ptr[10], ptr[11], ptr[12]); 134234a875f3SVijay Khemka break; 134334a875f3SVijay Khemka default: 134434a875f3SVijay Khemka std::vector<uint8_t> oemData(ptr, ptr + 13); 134534a875f3SVijay Khemka std::string oemDataStr; 134634a875f3SVijay Khemka toHexStr(oemData, oemDataStr); 13477451903cScchoux tmpStream << std::format("Undefined Error Type(0x{:02X}), Raw: {}", 13487451903cScchoux errType, oemDataStr); 134934a875f3SVijay Khemka } 135034a875f3SVijay Khemka 135134a875f3SVijay Khemka errStr = tmpStream.str(); 135234a875f3SVijay Khemka 135334a875f3SVijay Khemka return; 135434a875f3SVijay Khemka } 135534a875f3SVijay Khemka 1356c056dc00SManikandan Elumalai static void parseSelData(uint8_t fruId, std::vector<uint8_t>& reqData, 1357c056dc00SManikandan Elumalai std::string& msgLog) 1358f36f345fSVijay Khemka { 1359f36f345fSVijay Khemka /* Get record type */ 1360f36f345fSVijay Khemka int recType = reqData[2]; 1361f36f345fSVijay Khemka std::string errType, errLog; 1362f36f345fSVijay Khemka 1363f36f345fSVijay Khemka uint8_t* ptr = NULL; 1364f36f345fSVijay Khemka 1365f36f345fSVijay Khemka std::stringstream recTypeStream; 1366f36f345fSVijay Khemka recTypeStream << std::hex << std::uppercase << std::setfill('0') 1367f36f345fSVijay Khemka << std::setw(2) << recType; 1368f36f345fSVijay Khemka 1369c056dc00SManikandan Elumalai msgLog = "SEL Entry: FRU: " + std::to_string(fruId) + ", Record: "; 1370f36f345fSVijay Khemka 1371f36f345fSVijay Khemka if (recType == stdErrType) 1372f36f345fSVijay Khemka { 1373f36f345fSVijay Khemka StdSELEntry* data = reinterpret_cast<StdSELEntry*>(&reqData[0]); 1374f36f345fSVijay Khemka std::string sensorName; 1375f36f345fSVijay Khemka 1376f36f345fSVijay Khemka errType = stdErr; 1377f36f345fSVijay Khemka if (data->sensorType == 0x1F) 1378f36f345fSVijay Khemka { 1379f36f345fSVijay Khemka sensorName = "OS"; 1380f36f345fSVijay Khemka } 1381f36f345fSVijay Khemka else 1382f36f345fSVijay Khemka { 1383f36f345fSVijay Khemka auto findSensorName = sensorNameTable.find(data->sensorNum); 1384f36f345fSVijay Khemka if (findSensorName == sensorNameTable.end()) 1385f36f345fSVijay Khemka { 1386f36f345fSVijay Khemka sensorName = "Unknown"; 1387f36f345fSVijay Khemka } 1388f36f345fSVijay Khemka else 1389f36f345fSVijay Khemka { 1390139aa4f0SVijay Khemka sensorName = findSensorName->second.first; 1391f36f345fSVijay Khemka } 1392f36f345fSVijay Khemka } 1393f36f345fSVijay Khemka 13947480b2f1Scchoux time_t timeStamp = static_cast<time_t>(data->timeStamp); 13957480b2f1Scchoux std::string timeStr; 13967480b2f1Scchoux std::tm ts; 13977480b2f1Scchoux if (localtime_r(&timeStamp, &ts)) 13987480b2f1Scchoux { 13997480b2f1Scchoux char buf[64]; 14007480b2f1Scchoux if (strftime(buf, sizeof(buf), "%c", &ts)) 14017480b2f1Scchoux { 14027480b2f1Scchoux timeStr = buf; 14037480b2f1Scchoux } 14047480b2f1Scchoux } 1405f36f345fSVijay Khemka 1406f36f345fSVijay Khemka parseStdSel(data, errLog); 1407f36f345fSVijay Khemka ptr = &(data->eventData1); 1408f36f345fSVijay Khemka std::vector<uint8_t> evtData(ptr, ptr + 3); 1409f36f345fSVijay Khemka std::string eventData; 1410f36f345fSVijay Khemka toHexStr(evtData, eventData); 1411f36f345fSVijay Khemka 1412f36f345fSVijay Khemka std::stringstream senNumStream; 1413f36f345fSVijay Khemka senNumStream << std::hex << std::uppercase << std::setfill('0') 1414f36f345fSVijay Khemka << std::setw(2) << (int)(data->sensorNum); 1415f36f345fSVijay Khemka 1416f36f345fSVijay Khemka msgLog += errType + " (0x" + recTypeStream.str() + 1417f36f345fSVijay Khemka "), Time: " + timeStr + ", Sensor: " + sensorName + " (0x" + 1418f36f345fSVijay Khemka senNumStream.str() + "), Event Data: (" + eventData + ") " + 1419f36f345fSVijay Khemka errLog; 1420f36f345fSVijay Khemka } 1421f36f345fSVijay Khemka else if ((recType >= oemTSErrTypeMin) && (recType <= oemTSErrTypeMax)) 1422f36f345fSVijay Khemka { 1423f36f345fSVijay Khemka /* timestamped OEM SEL records */ 1424f36f345fSVijay Khemka TsOemSELEntry* data = reinterpret_cast<TsOemSELEntry*>(&reqData[0]); 1425f36f345fSVijay Khemka ptr = data->mfrId; 1426f36f345fSVijay Khemka std::vector<uint8_t> mfrIdData(ptr, ptr + 3); 1427f36f345fSVijay Khemka std::string mfrIdStr; 1428f36f345fSVijay Khemka toHexStr(mfrIdData, mfrIdStr); 1429f36f345fSVijay Khemka 1430f36f345fSVijay Khemka ptr = data->oemData; 1431f36f345fSVijay Khemka std::vector<uint8_t> oemData(ptr, ptr + 6); 1432f36f345fSVijay Khemka std::string oemDataStr; 1433f36f345fSVijay Khemka toHexStr(oemData, oemDataStr); 1434f36f345fSVijay Khemka 14357480b2f1Scchoux time_t timeStamp = static_cast<time_t>(data->timeStamp); 14367480b2f1Scchoux std::string timeStr; 14377480b2f1Scchoux std::tm ts; 14387480b2f1Scchoux if (localtime_r(&timeStamp, &ts)) 14397480b2f1Scchoux { 14407480b2f1Scchoux char buf[64]; 14417480b2f1Scchoux if (strftime(buf, sizeof(buf), "%c", &ts)) 14427480b2f1Scchoux { 14437480b2f1Scchoux timeStr = buf; 14447480b2f1Scchoux } 14457480b2f1Scchoux } 1446f36f345fSVijay Khemka 1447f36f345fSVijay Khemka errType = oemTSErr; 1448f36f345fSVijay Khemka parseOemSel(data, errLog); 1449f36f345fSVijay Khemka 1450f36f345fSVijay Khemka msgLog += errType + " (0x" + recTypeStream.str() + 1451f36f345fSVijay Khemka "), Time: " + timeStr + ", MFG ID: " + mfrIdStr + 1452f36f345fSVijay Khemka ", OEM Data: (" + oemDataStr + ") " + errLog; 1453f36f345fSVijay Khemka } 145434a875f3SVijay Khemka else if (recType == fbUniErrType) 145534a875f3SVijay Khemka { 145634a875f3SVijay Khemka NtsOemSELEntry* data = reinterpret_cast<NtsOemSELEntry*>(&reqData[0]); 145734a875f3SVijay Khemka errType = fbUniSELErr; 145834a875f3SVijay Khemka parseOemUnifiedSel(data, errLog); 145934a875f3SVijay Khemka msgLog += errType + " (0x" + recTypeStream.str() + "), " + errLog; 146034a875f3SVijay Khemka } 1461f36f345fSVijay Khemka else if ((recType >= oemNTSErrTypeMin) && (recType <= oemNTSErrTypeMax)) 1462f36f345fSVijay Khemka { 1463f36f345fSVijay Khemka /* Non timestamped OEM SEL records */ 1464f36f345fSVijay Khemka NtsOemSELEntry* data = reinterpret_cast<NtsOemSELEntry*>(&reqData[0]); 1465f36f345fSVijay Khemka errType = oemNTSErr; 1466f36f345fSVijay Khemka 1467f36f345fSVijay Khemka ptr = data->oemData; 1468f36f345fSVijay Khemka std::vector<uint8_t> oemData(ptr, ptr + 13); 1469f36f345fSVijay Khemka std::string oemDataStr; 1470f36f345fSVijay Khemka toHexStr(oemData, oemDataStr); 1471f36f345fSVijay Khemka 1472f36f345fSVijay Khemka parseOemSel((TsOemSELEntry*)data, errLog); 1473f36f345fSVijay Khemka msgLog += errType + " (0x" + recTypeStream.str() + "), OEM Data: (" + 1474f36f345fSVijay Khemka oemDataStr + ") " + errLog; 1475f36f345fSVijay Khemka } 1476f36f345fSVijay Khemka else 1477f36f345fSVijay Khemka { 1478f36f345fSVijay Khemka errType = unknownErr; 1479f36f345fSVijay Khemka toHexStr(reqData, errLog); 14802405ae98SPatrick Williams msgLog += errType + " (0x" + recTypeStream.str() + 14812405ae98SPatrick Williams ") RawData: " + errLog; 1482f36f345fSVijay Khemka } 1483f36f345fSVijay Khemka } 1484f36f345fSVijay Khemka 148511b9c3b1SVijay Khemka } // namespace fb_oem::ipmi::sel 148611b9c3b1SVijay Khemka 148711b9c3b1SVijay Khemka namespace ipmi 148811b9c3b1SVijay Khemka { 148911b9c3b1SVijay Khemka 149011b9c3b1SVijay Khemka namespace storage 149111b9c3b1SVijay Khemka { 149211b9c3b1SVijay Khemka 149311b9c3b1SVijay Khemka static void registerSELFunctions() __attribute__((constructor)); 149411b9c3b1SVijay Khemka static fb_oem::ipmi::sel::SELData selObj __attribute__((init_priority(101))); 149511b9c3b1SVijay Khemka 149611b9c3b1SVijay Khemka ipmi::RspType<uint8_t, // SEL version 149711b9c3b1SVijay Khemka uint16_t, // SEL entry count 149811b9c3b1SVijay Khemka uint16_t, // free space 149911b9c3b1SVijay Khemka uint32_t, // last add timestamp 150011b9c3b1SVijay Khemka uint32_t, // last erase timestamp 150111b9c3b1SVijay Khemka uint8_t> // operation support 150211b9c3b1SVijay Khemka ipmiStorageGetSELInfo() 150311b9c3b1SVijay Khemka { 150411b9c3b1SVijay Khemka fb_oem::ipmi::sel::GetSELInfoData info; 150511b9c3b1SVijay Khemka 150611b9c3b1SVijay Khemka selObj.getInfo(info); 150711b9c3b1SVijay Khemka return ipmi::responseSuccess(info.selVersion, info.entries, info.freeSpace, 150811b9c3b1SVijay Khemka info.addTimeStamp, info.eraseTimeStamp, 150911b9c3b1SVijay Khemka info.operationSupport); 151011b9c3b1SVijay Khemka } 151111b9c3b1SVijay Khemka 151211b9c3b1SVijay Khemka ipmi::RspType<uint16_t, std::vector<uint8_t>> 151311b9c3b1SVijay Khemka ipmiStorageGetSELEntry(std::vector<uint8_t> data) 151411b9c3b1SVijay Khemka { 151511b9c3b1SVijay Khemka if (data.size() != sizeof(fb_oem::ipmi::sel::GetSELEntryRequest)) 151611b9c3b1SVijay Khemka { 151711b9c3b1SVijay Khemka return ipmi::responseReqDataLenInvalid(); 151811b9c3b1SVijay Khemka } 151911b9c3b1SVijay Khemka 152011b9c3b1SVijay Khemka fb_oem::ipmi::sel::GetSELEntryRequest* reqData = 152111b9c3b1SVijay Khemka reinterpret_cast<fb_oem::ipmi::sel::GetSELEntryRequest*>(&data[0]); 152211b9c3b1SVijay Khemka 152311b9c3b1SVijay Khemka if (reqData->reservID != 0) 152411b9c3b1SVijay Khemka { 152511b9c3b1SVijay Khemka if (!checkSELReservation(reqData->reservID)) 152611b9c3b1SVijay Khemka { 152711b9c3b1SVijay Khemka return ipmi::responseInvalidReservationId(); 152811b9c3b1SVijay Khemka } 152911b9c3b1SVijay Khemka } 153011b9c3b1SVijay Khemka 153111b9c3b1SVijay Khemka uint16_t selCnt = selObj.getCount(); 153211b9c3b1SVijay Khemka if (selCnt == 0) 153311b9c3b1SVijay Khemka { 153411b9c3b1SVijay Khemka return ipmi::responseSensorInvalid(); 153511b9c3b1SVijay Khemka } 153611b9c3b1SVijay Khemka 153711b9c3b1SVijay Khemka /* If it is asked for first entry */ 153811b9c3b1SVijay Khemka if (reqData->recordID == fb_oem::ipmi::sel::firstEntry) 153911b9c3b1SVijay Khemka { 154011b9c3b1SVijay Khemka /* First Entry (0x0000) as per Spec */ 154111b9c3b1SVijay Khemka reqData->recordID = 1; 154211b9c3b1SVijay Khemka } 154311b9c3b1SVijay Khemka else if (reqData->recordID == fb_oem::ipmi::sel::lastEntry) 154411b9c3b1SVijay Khemka { 154511b9c3b1SVijay Khemka /* Last entry (0xFFFF) as per Spec */ 154611b9c3b1SVijay Khemka reqData->recordID = selCnt; 154711b9c3b1SVijay Khemka } 154811b9c3b1SVijay Khemka 154911b9c3b1SVijay Khemka std::string ipmiRaw; 155011b9c3b1SVijay Khemka 155111b9c3b1SVijay Khemka if (selObj.getEntry(reqData->recordID, ipmiRaw) < 0) 155211b9c3b1SVijay Khemka { 155311b9c3b1SVijay Khemka return ipmi::responseSensorInvalid(); 155411b9c3b1SVijay Khemka } 155511b9c3b1SVijay Khemka 155611b9c3b1SVijay Khemka std::vector<uint8_t> recDataBytes; 155711b9c3b1SVijay Khemka if (fromHexStr(ipmiRaw, recDataBytes) < 0) 155811b9c3b1SVijay Khemka { 155911b9c3b1SVijay Khemka return ipmi::responseUnspecifiedError(); 156011b9c3b1SVijay Khemka } 156111b9c3b1SVijay Khemka 156211b9c3b1SVijay Khemka /* Identify the next SEL record ID. If recordID is same as 156311b9c3b1SVijay Khemka * total SeL count then next id should be last entry else 156411b9c3b1SVijay Khemka * it should be incremented by 1 to current RecordID 156511b9c3b1SVijay Khemka */ 156611b9c3b1SVijay Khemka uint16_t nextRecord; 156711b9c3b1SVijay Khemka if (reqData->recordID == selCnt) 156811b9c3b1SVijay Khemka { 156911b9c3b1SVijay Khemka nextRecord = fb_oem::ipmi::sel::lastEntry; 157011b9c3b1SVijay Khemka } 157111b9c3b1SVijay Khemka else 157211b9c3b1SVijay Khemka { 157311b9c3b1SVijay Khemka nextRecord = reqData->recordID + 1; 157411b9c3b1SVijay Khemka } 157511b9c3b1SVijay Khemka 157611b9c3b1SVijay Khemka if (reqData->readLen == fb_oem::ipmi::sel::entireRecord) 157711b9c3b1SVijay Khemka { 157811b9c3b1SVijay Khemka return ipmi::responseSuccess(nextRecord, recDataBytes); 157911b9c3b1SVijay Khemka } 158011b9c3b1SVijay Khemka else 158111b9c3b1SVijay Khemka { 158211b9c3b1SVijay Khemka if (reqData->offset >= fb_oem::ipmi::sel::selRecordSize || 158311b9c3b1SVijay Khemka reqData->readLen > fb_oem::ipmi::sel::selRecordSize) 158411b9c3b1SVijay Khemka { 158511b9c3b1SVijay Khemka return ipmi::responseUnspecifiedError(); 158611b9c3b1SVijay Khemka } 158711b9c3b1SVijay Khemka std::vector<uint8_t> recPartData; 158811b9c3b1SVijay Khemka 158911b9c3b1SVijay Khemka auto diff = fb_oem::ipmi::sel::selRecordSize - reqData->offset; 159011b9c3b1SVijay Khemka auto readLength = std::min(diff, static_cast<int>(reqData->readLen)); 159111b9c3b1SVijay Khemka 159211b9c3b1SVijay Khemka for (int i = 0; i < readLength; i++) 159311b9c3b1SVijay Khemka { 159411b9c3b1SVijay Khemka recPartData.push_back(recDataBytes[i + reqData->offset]); 159511b9c3b1SVijay Khemka } 159611b9c3b1SVijay Khemka return ipmi::responseSuccess(nextRecord, recPartData); 159711b9c3b1SVijay Khemka } 159811b9c3b1SVijay Khemka } 159911b9c3b1SVijay Khemka 1600c056dc00SManikandan Elumalai ipmi::RspType<uint16_t> ipmiStorageAddSELEntry(ipmi::Context::ptr ctx, 1601c056dc00SManikandan Elumalai std::vector<uint8_t> data) 160211b9c3b1SVijay Khemka { 160311b9c3b1SVijay Khemka /* Per the IPMI spec, need to cancel any reservation when a 160411b9c3b1SVijay Khemka * SEL entry is added 160511b9c3b1SVijay Khemka */ 160611b9c3b1SVijay Khemka cancelSELReservation(); 160711b9c3b1SVijay Khemka 160811b9c3b1SVijay Khemka if (data.size() != fb_oem::ipmi::sel::selRecordSize) 160911b9c3b1SVijay Khemka { 161011b9c3b1SVijay Khemka return ipmi::responseReqDataLenInvalid(); 161111b9c3b1SVijay Khemka } 161211b9c3b1SVijay Khemka 161311b9c3b1SVijay Khemka std::string ipmiRaw, logErr; 161411b9c3b1SVijay Khemka toHexStr(data, ipmiRaw); 161511b9c3b1SVijay Khemka 1616f36f345fSVijay Khemka /* Parse sel data and get an error log to be filed */ 1617c056dc00SManikandan Elumalai fb_oem::ipmi::sel::parseSelData((ctx->hostIdx + 1), data, logErr); 1618f36f345fSVijay Khemka 161915a7ae81SVijay Khemka static const std::string openBMCMessageRegistryVersion("0.1"); 16202405ae98SPatrick Williams std::string messageID = "OpenBMC." + openBMCMessageRegistryVersion + 16212405ae98SPatrick Williams ".SELEntryAdded"; 162215a7ae81SVijay Khemka 162311b9c3b1SVijay Khemka /* Log the Raw SEL message to the journal */ 162411b9c3b1SVijay Khemka std::string journalMsg = "SEL Entry Added: " + ipmiRaw; 1625f36f345fSVijay Khemka 162615a7ae81SVijay Khemka phosphor::logging::log<phosphor::logging::level::INFO>( 162715a7ae81SVijay Khemka journalMsg.c_str(), 162815a7ae81SVijay Khemka phosphor::logging::entry("IPMISEL_MESSAGE_ID=%s", messageID.c_str()), 162915a7ae81SVijay Khemka phosphor::logging::entry("IPMISEL_MESSAGE_ARGS=%s", logErr.c_str())); 163011b9c3b1SVijay Khemka 163121a79235SBonnieLo-wiwynn std::map<std::string, std::string> ad; 163221a79235SBonnieLo-wiwynn std::string severity = "xyz.openbmc_project.Logging.Entry.Level.Critical"; 163321a79235SBonnieLo-wiwynn ad.emplace("IPMI_RAW", ipmiRaw); 163421a79235SBonnieLo-wiwynn 163521a79235SBonnieLo-wiwynn auto bus = sdbusplus::bus::new_default(); 163621a79235SBonnieLo-wiwynn auto reqMsg = bus.new_method_call( 163721a79235SBonnieLo-wiwynn "xyz.openbmc_project.Logging", "/xyz/openbmc_project/logging", 163821a79235SBonnieLo-wiwynn "xyz.openbmc_project.Logging.Create", "Create"); 163921a79235SBonnieLo-wiwynn reqMsg.append(logErr, severity, ad); 164021a79235SBonnieLo-wiwynn 164121a79235SBonnieLo-wiwynn try 164221a79235SBonnieLo-wiwynn { 164321a79235SBonnieLo-wiwynn bus.call(reqMsg); 164421a79235SBonnieLo-wiwynn } 164521a79235SBonnieLo-wiwynn catch (sdbusplus::exception_t& e) 164621a79235SBonnieLo-wiwynn { 164721a79235SBonnieLo-wiwynn phosphor::logging::log<phosphor::logging::level::ERR>(e.what()); 164821a79235SBonnieLo-wiwynn } 164921a79235SBonnieLo-wiwynn 165011b9c3b1SVijay Khemka int responseID = selObj.addEntry(ipmiRaw.c_str()); 165111b9c3b1SVijay Khemka if (responseID < 0) 165211b9c3b1SVijay Khemka { 165311b9c3b1SVijay Khemka return ipmi::responseUnspecifiedError(); 165411b9c3b1SVijay Khemka } 165511b9c3b1SVijay Khemka return ipmi::responseSuccess((uint16_t)responseID); 165611b9c3b1SVijay Khemka } 165711b9c3b1SVijay Khemka 1658c1921c63SVijay Khemka ipmi::RspType<uint8_t> ipmiStorageClearSEL(uint16_t reservationID, 1659c1921c63SVijay Khemka const std::array<uint8_t, 3>& clr, 1660c1921c63SVijay Khemka uint8_t eraseOperation) 1661c1921c63SVijay Khemka { 1662c1921c63SVijay Khemka if (!checkSELReservation(reservationID)) 1663c1921c63SVijay Khemka { 1664c1921c63SVijay Khemka return ipmi::responseInvalidReservationId(); 1665c1921c63SVijay Khemka } 1666c1921c63SVijay Khemka 1667c1921c63SVijay Khemka static constexpr std::array<uint8_t, 3> clrExpected = {'C', 'L', 'R'}; 1668c1921c63SVijay Khemka if (clr != clrExpected) 1669c1921c63SVijay Khemka { 1670c1921c63SVijay Khemka return ipmi::responseInvalidFieldRequest(); 1671c1921c63SVijay Khemka } 1672c1921c63SVijay Khemka 1673c1921c63SVijay Khemka /* If there is no sel then return erase complete */ 1674c1921c63SVijay Khemka if (selObj.getCount() == 0) 1675c1921c63SVijay Khemka { 1676c1921c63SVijay Khemka return ipmi::responseSuccess(fb_oem::ipmi::sel::eraseComplete); 1677c1921c63SVijay Khemka } 1678c1921c63SVijay Khemka 1679c1921c63SVijay Khemka /* Erasure status cannot be fetched, so always return erasure 1680c1921c63SVijay Khemka * status as `erase completed`. 1681c1921c63SVijay Khemka */ 1682c1921c63SVijay Khemka if (eraseOperation == fb_oem::ipmi::sel::getEraseStatus) 1683c1921c63SVijay Khemka { 1684c1921c63SVijay Khemka return ipmi::responseSuccess(fb_oem::ipmi::sel::eraseComplete); 1685c1921c63SVijay Khemka } 1686c1921c63SVijay Khemka 1687c1921c63SVijay Khemka /* Check that initiate erase is correct */ 1688c1921c63SVijay Khemka if (eraseOperation != fb_oem::ipmi::sel::initiateErase) 1689c1921c63SVijay Khemka { 1690c1921c63SVijay Khemka return ipmi::responseInvalidFieldRequest(); 1691c1921c63SVijay Khemka } 1692c1921c63SVijay Khemka 1693c1921c63SVijay Khemka /* Per the IPMI spec, need to cancel any reservation when the 1694c1921c63SVijay Khemka * SEL is cleared 1695c1921c63SVijay Khemka */ 1696c1921c63SVijay Khemka cancelSELReservation(); 1697c1921c63SVijay Khemka 1698c1921c63SVijay Khemka /* Clear the complete Sel Json object */ 1699c1921c63SVijay Khemka if (selObj.clear() < 0) 1700c1921c63SVijay Khemka { 1701c1921c63SVijay Khemka return ipmi::responseUnspecifiedError(); 1702c1921c63SVijay Khemka } 1703c1921c63SVijay Khemka 1704c1921c63SVijay Khemka return ipmi::responseSuccess(fb_oem::ipmi::sel::eraseComplete); 1705c1921c63SVijay Khemka } 1706c1921c63SVijay Khemka 1707c1921c63SVijay Khemka ipmi::RspType<uint32_t> ipmiStorageGetSELTime() 1708c1921c63SVijay Khemka { 1709c1921c63SVijay Khemka struct timespec selTime = {}; 1710c1921c63SVijay Khemka 1711c1921c63SVijay Khemka if (clock_gettime(CLOCK_REALTIME, &selTime) < 0) 1712c1921c63SVijay Khemka { 1713c1921c63SVijay Khemka return ipmi::responseUnspecifiedError(); 1714c1921c63SVijay Khemka } 1715c1921c63SVijay Khemka 1716c1921c63SVijay Khemka return ipmi::responseSuccess(selTime.tv_sec); 1717c1921c63SVijay Khemka } 1718c1921c63SVijay Khemka 1719e39f9393SWilly Tu ipmi::RspType<> ipmiStorageSetSELTime(uint32_t) 1720c1921c63SVijay Khemka { 1721c1921c63SVijay Khemka // Set SEL Time is not supported 1722c1921c63SVijay Khemka return ipmi::responseInvalidCommand(); 1723c1921c63SVijay Khemka } 1724c1921c63SVijay Khemka 1725c1921c63SVijay Khemka ipmi::RspType<uint16_t> ipmiStorageGetSELTimeUtcOffset() 1726c1921c63SVijay Khemka { 1727c1921c63SVijay Khemka /* TODO: For now, the SEL time stamp is based on UTC time, 1728c1921c63SVijay Khemka * so return 0x0000 as offset. Might need to change once 1729c1921c63SVijay Khemka * supporting zones in SEL time stamps 1730c1921c63SVijay Khemka */ 1731c1921c63SVijay Khemka 1732c1921c63SVijay Khemka uint16_t utcOffset = 0x0000; 1733c1921c63SVijay Khemka return ipmi::responseSuccess(utcOffset); 1734c1921c63SVijay Khemka } 1735c1921c63SVijay Khemka 173611b9c3b1SVijay Khemka void registerSELFunctions() 173711b9c3b1SVijay Khemka { 173811b9c3b1SVijay Khemka // <Get SEL Info> 173911b9c3b1SVijay Khemka ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnStorage, 174011b9c3b1SVijay Khemka ipmi::storage::cmdGetSelInfo, ipmi::Privilege::User, 174111b9c3b1SVijay Khemka ipmiStorageGetSELInfo); 174211b9c3b1SVijay Khemka 174311b9c3b1SVijay Khemka // <Get SEL Entry> 174411b9c3b1SVijay Khemka ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnStorage, 174511b9c3b1SVijay Khemka ipmi::storage::cmdGetSelEntry, ipmi::Privilege::User, 174611b9c3b1SVijay Khemka ipmiStorageGetSELEntry); 174711b9c3b1SVijay Khemka 174811b9c3b1SVijay Khemka // <Add SEL Entry> 174911b9c3b1SVijay Khemka ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnStorage, 175011b9c3b1SVijay Khemka ipmi::storage::cmdAddSelEntry, 175111b9c3b1SVijay Khemka ipmi::Privilege::Operator, ipmiStorageAddSELEntry); 175211b9c3b1SVijay Khemka 1753c1921c63SVijay Khemka // <Clear SEL> 1754c1921c63SVijay Khemka ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnStorage, 1755c1921c63SVijay Khemka ipmi::storage::cmdClearSel, ipmi::Privilege::Operator, 1756c1921c63SVijay Khemka ipmiStorageClearSEL); 1757c1921c63SVijay Khemka 1758c1921c63SVijay Khemka // <Get SEL Time> 1759c1921c63SVijay Khemka ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnStorage, 1760c1921c63SVijay Khemka ipmi::storage::cmdGetSelTime, ipmi::Privilege::User, 1761c1921c63SVijay Khemka ipmiStorageGetSELTime); 1762c1921c63SVijay Khemka 1763c1921c63SVijay Khemka // <Set SEL Time> 1764c1921c63SVijay Khemka ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnStorage, 1765c1921c63SVijay Khemka ipmi::storage::cmdSetSelTime, 1766c1921c63SVijay Khemka ipmi::Privilege::Operator, ipmiStorageSetSELTime); 1767c1921c63SVijay Khemka 1768c1921c63SVijay Khemka // <Get SEL Time UTC Offset> 1769c1921c63SVijay Khemka ipmi::registerHandler(ipmi::prioOpenBmcBase, ipmi::netFnStorage, 1770c1921c63SVijay Khemka ipmi::storage::cmdGetSelTimeUtcOffset, 1771c1921c63SVijay Khemka ipmi::Privilege::User, 1772c1921c63SVijay Khemka ipmiStorageGetSELTimeUtcOffset); 1773c1921c63SVijay Khemka 177411b9c3b1SVijay Khemka return; 177511b9c3b1SVijay Khemka } 177611b9c3b1SVijay Khemka 177711b9c3b1SVijay Khemka } // namespace storage 177811b9c3b1SVijay Khemka } // namespace ipmi 1779