1 #include "writefrudata.hpp" 2 3 #include "fru_area.hpp" 4 #include "frup.hpp" 5 #include "types.hpp" 6 7 #include <ipmid/api.h> 8 #include <unistd.h> 9 10 #include <phosphor-logging/log.hpp> 11 #include <sdbusplus/bus.hpp> 12 13 #include <algorithm> 14 #include <array> 15 #include <cstdio> 16 #include <cstring> 17 #include <exception> 18 #include <fstream> 19 #include <iostream> 20 #include <map> 21 #include <memory> 22 #include <span> 23 #include <sstream> 24 #include <vector> 25 26 using namespace ipmi::vpd; 27 using namespace phosphor::logging; 28 29 extern const FruMap frus; 30 extern const std::map<Path, InterfaceMap> extras; 31 32 using FruAreaVector = std::vector<std::unique_ptr<IPMIFruArea>>; 33 34 namespace 35 { 36 37 /** 38 * Cleanup routine 39 * Must always be called as last reference to fruFilePointer. 40 * 41 * @param[in] fruFilePointer - FRU file pointer to close 42 * @param[in] fruAreaVec - vector of FRU areas 43 * @return -1 44 */ 45 int cleanupError(FILE* fruFilePointer, FruAreaVector& fruAreaVec) 46 { 47 if (fruFilePointer != NULL) 48 { 49 std::fclose(fruFilePointer); 50 } 51 52 if (!(fruAreaVec.empty())) 53 { 54 fruAreaVec.clear(); 55 } 56 57 return -1; 58 } 59 60 /** 61 * Gets the value of the key from the FRU dictionary of the given section. 62 * FRU dictionary is parsed FRU data for all the sections. 63 * 64 * @param[in] section - FRU section name 65 * @param[in] key - key for section 66 * @param[in] delimiter - delimiter for parsing custom fields 67 * @param[in] fruData - the FRU data to search for the section 68 * @return FRU value 69 */ 70 std::string getFRUValue(const std::string& section, const std::string& key, 71 const std::string& delimiter, IPMIFruInfo& fruData) 72 { 73 auto minIndexValue = 0; 74 auto maxIndexValue = 0; 75 std::string fruValue = ""; 76 77 if (section == "Board") 78 { 79 minIndexValue = OPENBMC_VPD_KEY_BOARD_MFG_DATE; 80 maxIndexValue = OPENBMC_VPD_KEY_BOARD_MAX; 81 } 82 else if (section == "Product") 83 { 84 minIndexValue = OPENBMC_VPD_KEY_PRODUCT_MFR; 85 maxIndexValue = OPENBMC_VPD_KEY_PRODUCT_MAX; 86 } 87 else if (section == "Chassis") 88 { 89 minIndexValue = OPENBMC_VPD_KEY_CHASSIS_TYPE; 90 maxIndexValue = OPENBMC_VPD_KEY_CHASSIS_MAX; 91 } 92 93 auto first = fruData.cbegin() + minIndexValue; 94 auto last = first + (maxIndexValue - minIndexValue) + 1; 95 96 auto itr = std::find_if(first, last, [&key](const auto& e) { 97 return key == e.first; 98 }); 99 100 if (itr != last) 101 { 102 fruValue = itr->second; 103 } 104 105 // if the key is custom property then the value could be in two formats. 106 // 1) custom field 2 = "value". 107 // 2) custom field 2 = "key:value". 108 // if delimiter length = 0 i.e custom field 2 = "value" 109 110 constexpr auto customProp = "Custom Field"; 111 if (key.find(customProp) != std::string::npos) 112 { 113 if (delimiter.length() > 0) 114 { 115 size_t delimiterpos = fruValue.find(delimiter); 116 if (delimiterpos != std::string::npos) 117 { 118 fruValue = fruValue.substr(delimiterpos + 1); 119 } 120 } 121 } 122 return fruValue; 123 } 124 125 /** 126 * Get the inventory service from the mapper. 127 * 128 * @param[in] bus - sdbusplus handle to use for dbus call 129 * @param[in] intf - interface 130 * @param[in] path - the object path 131 * @return the dbus service that owns the interface for that path 132 */ 133 auto getService(sdbusplus::bus_t& bus, const std::string& intf, 134 const std::string& path) 135 { 136 auto mapperCall = 137 bus.new_method_call("xyz.openbmc_project.ObjectMapper", 138 "/xyz/openbmc_project/object_mapper", 139 "xyz.openbmc_project.ObjectMapper", "GetObject"); 140 141 mapperCall.append(path); 142 mapperCall.append(std::vector<std::string>({intf})); 143 std::map<std::string, std::vector<std::string>> mapperResponse; 144 145 try 146 { 147 auto mapperResponseMsg = bus.call(mapperCall); 148 mapperResponseMsg.read(mapperResponse); 149 } 150 catch (const sdbusplus::exception_t& ex) 151 { 152 log<level::ERR>("Exception from sdbus call", 153 entry("WHAT=%s", ex.what())); 154 throw; 155 } 156 157 if (mapperResponse.begin() == mapperResponse.end()) 158 { 159 throw std::runtime_error("ERROR in reading the mapper response"); 160 } 161 162 return mapperResponse.begin()->first; 163 } 164 165 /** 166 * Takes FRU data, invokes Parser for each FRU record area and updates 167 * inventory. 168 * 169 * @param[in] areaVector - vector of FRU areas 170 * @param[in] bus - handle to sdbus for calling methods, etc 171 * @return return non-zero of failure 172 */ 173 int updateInventory(FruAreaVector& areaVector, sdbusplus::bus_t& bus) 174 { 175 // Generic error reporter 176 int rc = 0; 177 uint8_t fruid = 0; 178 IPMIFruInfo fruData; 179 180 // For each FRU area, extract the needed data , get it parsed and update 181 // the Inventory. 182 for (const auto& fruArea : areaVector) 183 { 184 fruid = fruArea->getFruID(); 185 // Fill the container with information 186 rc = parse_fru_area(fruArea->getType(), 187 static_cast<const void*>(fruArea->getData()), 188 fruArea->getLength(), fruData); 189 if (rc < 0) 190 { 191 log<level::ERR>("Error parsing FRU records"); 192 return rc; 193 } 194 } // END walking the vector of areas and updating 195 196 // For each FRU we have the list of instances which needs to be updated. 197 // Each instance object implements certain interfaces. 198 // Each Interface is having Dbus properties. 199 // Each Dbus Property would be having metaData(eg section,VpdPropertyName). 200 201 // Here we are just printing the object,interface and the properties. 202 // which needs to be called with the new inventory manager implementation. 203 using namespace std::string_literals; 204 static const auto intf = "xyz.openbmc_project.Inventory.Manager"s; 205 static const auto path = "/xyz/openbmc_project/inventory"s; 206 std::string service; 207 try 208 { 209 service = getService(bus, intf, path); 210 } 211 catch (const std::exception& e) 212 { 213 std::cerr << e.what() << "\n"; 214 return -1; 215 } 216 217 auto iter = frus.find(fruid); 218 if (iter == frus.end()) 219 { 220 log<level::ERR>("Unable to find FRUID in generated list", 221 entry("FRU=%d", static_cast<int>(fruid))); 222 return -1; 223 } 224 225 auto& instanceList = iter->second; 226 if (instanceList.size() <= 0) 227 { 228 log<level::DEBUG>("Object list empty for this FRU", 229 entry("FRU=%d", static_cast<int>(fruid))); 230 } 231 232 ObjectMap objects; 233 for (const auto& instance : instanceList) 234 { 235 InterfaceMap interfaces; 236 const auto& extrasIter = extras.find(instance.path); 237 238 for (const auto& interfaceList : instance.interfaces) 239 { 240 PropertyMap props; // store all the properties 241 for (const auto& properties : interfaceList.second) 242 { 243 std::string value; 244 decltype(auto) pdata = properties.second; 245 246 if (!pdata.section.empty() && !pdata.property.empty()) 247 { 248 value = getFRUValue(pdata.section, pdata.property, 249 pdata.delimiter, fruData); 250 } 251 props.emplace(std::move(properties.first), std::move(value)); 252 } 253 // Check and update extra properties 254 if (extras.end() != extrasIter) 255 { 256 const auto& propsIter = 257 (extrasIter->second).find(interfaceList.first); 258 if ((extrasIter->second).end() != propsIter) 259 { 260 for (const auto& map : propsIter->second) 261 { 262 props.emplace(map.first, map.second); 263 } 264 } 265 } 266 interfaces.emplace(std::move(interfaceList.first), 267 std::move(props)); 268 } 269 270 // Call the inventory manager 271 sdbusplus::message::object_path objectPath = instance.path; 272 // Check and update extra properties 273 if (extras.end() != extrasIter) 274 { 275 for (const auto& entry : extrasIter->second) 276 { 277 if (interfaces.end() == interfaces.find(entry.first)) 278 { 279 interfaces.emplace(entry.first, entry.second); 280 } 281 } 282 } 283 objects.emplace(objectPath, interfaces); 284 } 285 286 auto pimMsg = bus.new_method_call(service.c_str(), path.c_str(), 287 intf.c_str(), "Notify"); 288 pimMsg.append(std::move(objects)); 289 290 try 291 { 292 auto inventoryMgrResponseMsg = bus.call(pimMsg); 293 } 294 catch (const sdbusplus::exception_t& ex) 295 { 296 log<level::ERR>("Error in notify call", entry("WHAT=%s", ex.what()), 297 entry("SERVICE=%s", service.c_str()), 298 entry("PATH=%s", path.c_str())); 299 return -1; 300 } 301 302 return rc; 303 } 304 305 } // namespace 306 307 /** 308 * Takes the pointer to stream of bytes and length and returns the 8 bit 309 * checksum. This algo is per IPMI V2.0 spec 310 * 311 * @param[in] data - data for running crc 312 * @param[in] len - the length over which to run the crc 313 * @return the CRC value 314 */ 315 unsigned char calculateCRC(const unsigned char* data, size_t len) 316 { 317 char crc = 0; 318 size_t byte = 0; 319 320 for (byte = 0; byte < len; byte++) 321 { 322 crc += *data++; 323 } 324 325 return (-crc); 326 } 327 328 /** 329 * Accepts a FRU area offset into a common header and tells which area it is. 330 * 331 * @param[in] areaOffset - offset to lookup the area type 332 * @return the ipmi_fru_area_type 333 */ 334 ipmi_fru_area_type getFruAreaType(uint8_t areaOffset) 335 { 336 ipmi_fru_area_type type = IPMI_FRU_AREA_TYPE_MAX; 337 338 switch (areaOffset) 339 { 340 case IPMI_FRU_INTERNAL_OFFSET: 341 type = IPMI_FRU_AREA_INTERNAL_USE; 342 break; 343 344 case IPMI_FRU_CHASSIS_OFFSET: 345 type = IPMI_FRU_AREA_CHASSIS_INFO; 346 break; 347 348 case IPMI_FRU_BOARD_OFFSET: 349 type = IPMI_FRU_AREA_BOARD_INFO; 350 break; 351 352 case IPMI_FRU_PRODUCT_OFFSET: 353 type = IPMI_FRU_AREA_PRODUCT_INFO; 354 break; 355 356 case IPMI_FRU_MULTI_OFFSET: 357 type = IPMI_FRU_AREA_MULTI_RECORD; 358 break; 359 360 default: 361 type = IPMI_FRU_AREA_TYPE_MAX; 362 } 363 364 return type; 365 } 366 367 /** 368 * Validates the data for multirecord fields and CRC if selected 369 * 370 * @param[in] data - the data to verify 371 * @param[in] len - the length of the region to verify 372 * @param[in] validateCrc - whether to validate the CRC 373 * @return non-zero on failure 374 */ 375 int verifyFruMultiRecData(const uint8_t* data, const size_t len, 376 bool validateCrc) 377 { 378 uint8_t checksum = 0; 379 int rc = -1; 380 381 if (!validateCrc) 382 { 383 // There's nothing else to do for this area. 384 return EXIT_SUCCESS; 385 } 386 387 // As per the IPMI platform spec, byte[3] is the record checksum. 388 checksum = calculateCRC(data, len); 389 if (checksum != data[3]) 390 { 391 #ifdef __IPMI_DEBUG__ 392 log<level::ERR>( 393 "Checksum mismatch", 394 entry("Calculated=0x%X", static_cast<uint32_t>(checksum)), 395 entry("Embedded=0x%X", static_cast<uint32_t>(data[3]))); 396 #endif 397 return rc; 398 } 399 #ifdef __IPMI_DEBUG__ 400 else 401 { 402 log<level::DEBUG>("Checksum matches"); 403 } 404 #endif 405 406 return EXIT_SUCCESS; 407 } 408 409 /** 410 * Validates the data for mandatory fields and CRC if selected. 411 * 412 * @param[in] data - the data to verify 413 * @param[in] len - the length of the region to verify 414 * @param[in] validateCrc - whether to validate the CRC 415 * @return non-zero on failure 416 */ 417 int verifyFruData(const uint8_t* data, const size_t len, bool validateCrc) 418 { 419 uint8_t checksum = 0; 420 int rc = -1; 421 422 // Validate for first byte to always have a value of [1] 423 if (data[0] != IPMI_FRU_HDR_BYTE_ZERO) 424 { 425 log<level::ERR>("Invalid entry in byte-0", 426 entry("ENTRY=0x%X", static_cast<uint32_t>(data[0]))); 427 return rc; 428 } 429 #ifdef __IPMI_DEBUG__ 430 else 431 { 432 log<level::DEBUG>("Validated in entry_1 of fruData", 433 entry("ENTRY=0x%X", static_cast<uint32_t>(data[0]))); 434 } 435 #endif 436 437 if (!validateCrc) 438 { 439 // There's nothing else to do for this area. 440 return EXIT_SUCCESS; 441 } 442 443 // See if the calculated CRC matches with the embedded one. 444 // CRC to be calculated on all except the last one that is CRC itself. 445 checksum = calculateCRC(data, len - 1); 446 if (checksum != data[len - 1]) 447 { 448 #ifdef __IPMI_DEBUG__ 449 log<level::ERR>( 450 "Checksum mismatch", 451 entry("Calculated=0x%X", static_cast<uint32_t>(checksum)), 452 entry("Embedded=0x%X", static_cast<uint32_t>(data[len]))); 453 #endif 454 return rc; 455 } 456 #ifdef __IPMI_DEBUG__ 457 else 458 { 459 log<level::DEBUG>("Checksum matches"); 460 } 461 #endif 462 463 return EXIT_SUCCESS; 464 } 465 466 /** 467 * Checks if a particular FRU area is populated or not. 468 * 469 * @param[in] reference to FRU area pointer 470 * @return true if the area is empty 471 */ 472 bool removeInvalidArea(const std::unique_ptr<IPMIFruArea>& fruArea) 473 { 474 // Filter the ones that are empty 475 if (!(fruArea->getLength())) 476 { 477 return true; 478 } 479 return false; 480 } 481 482 /** 483 * Populates various FRU areas. 484 * 485 * @prereq : This must be called only after validating common header 486 * @param[in] fruData - pointer to the FRU bytes 487 * @param[in] dataLen - the length of the FRU data 488 * @param[in] fruAreaVec - the FRU area vector to update 489 */ 490 int ipmiPopulateFruAreas(uint8_t* fruData, const size_t dataLen, 491 FruAreaVector& fruAreaVec) 492 { 493 // Now walk the common header and see if the file size has at least the last 494 // offset mentioned by the struct common_header. If the file size is less 495 // than the offset of any if the FRU areas mentioned in the common header, 496 // then we do not have a complete file. 497 for (uint8_t fruEntry = IPMI_FRU_INTERNAL_OFFSET; 498 fruEntry < (sizeof(struct common_header) - 2); fruEntry++) 499 { 500 int rc = -1; 501 // Actual offset in the payload is the offset mentioned in common header 502 // multiplied by 8. Common header is always the first 8 bytes. 503 size_t areaOffset = fruData[fruEntry] * IPMI_EIGHT_BYTES; 504 if (areaOffset && (dataLen < (areaOffset + 2))) 505 { 506 // Our file size is less than what it needs to be. +2 because we are 507 // using area len that is at 2 byte off areaOffset 508 log<level::ERR>("FRU file is incomplete", 509 entry("SIZE=%d", dataLen)); 510 return rc; 511 } 512 else if (areaOffset) 513 { 514 // Read 3 bytes to know the actual size of area. 515 uint8_t areaHeader[3] = {0}; 516 std::memcpy(areaHeader, &((uint8_t*)fruData)[areaOffset], 517 sizeof(areaHeader)); 518 519 // Size of this area will be the 2nd byte in the FRU area header. 520 size_t areaLen; 521 if (fruEntry == IPMI_FRU_MULTI_OFFSET) 522 { 523 areaLen = areaHeader[2] + IPMI_FRU_MULTIREC_HDR_BYTES; 524 } 525 else 526 { 527 areaLen = areaHeader[1] * IPMI_EIGHT_BYTES; 528 } 529 530 log<level::DEBUG>("FRU Data", entry("SIZE=%d", dataLen), 531 entry("AREA OFFSET=%d", areaOffset), 532 entry("AREA_SIZE=%d", areaLen)); 533 534 // See if we really have that much buffer. We have area offset amd 535 // from there, the actual len. 536 if (dataLen < (areaLen + areaOffset)) 537 { 538 log<level::ERR>("Incomplete FRU file", 539 entry("SIZE=%d", dataLen)); 540 return rc; 541 } 542 543 auto fruDataView = 544 std::span<uint8_t>(&fruData[areaOffset], areaLen); 545 auto areaData = 546 std::vector<uint8_t>(fruDataView.begin(), fruDataView.end()); 547 548 // Validate the CRC, but not for the internal use area, since its 549 // contents beyond the first byte are not defined in the spec and 550 // it may not end with a CRC byte. 551 bool validateCrc = fruEntry != IPMI_FRU_INTERNAL_OFFSET; 552 553 if (fruEntry == IPMI_FRU_MULTI_OFFSET) 554 { 555 rc = verifyFruMultiRecData(areaData.data(), areaLen, 556 validateCrc); 557 } 558 else 559 { 560 rc = verifyFruData(areaData.data(), areaLen, validateCrc); 561 } 562 563 if (rc < 0) 564 { 565 log<level::ERR>("Err validating FRU area", 566 entry("OFFSET=%d", areaOffset)); 567 return rc; 568 } 569 else 570 { 571 log<level::DEBUG>("Successfully verified area.", 572 entry("OFFSET=%d", areaOffset)); 573 } 574 575 // We already have a vector that is passed to us containing all 576 // of the fields populated. Update the data portion now. 577 for (auto& iter : fruAreaVec) 578 { 579 if (iter->getType() == getFruAreaType(fruEntry)) 580 { 581 iter->setData(areaData.data(), areaLen); 582 } 583 } 584 } // If we have FRU data present 585 } // Walk struct common_header 586 587 // Not all the fields will be populated in a FRU data. Mostly all cases will 588 // not have more than 2 or 3. 589 fruAreaVec.erase( 590 std::remove_if(fruAreaVec.begin(), fruAreaVec.end(), removeInvalidArea), 591 fruAreaVec.end()); 592 593 return EXIT_SUCCESS; 594 } 595 596 /** 597 * Validates the FRU data per ipmi common header constructs. 598 * Returns with updated struct common_header and also file_size 599 * 600 * @param[in] fruData - the FRU data 601 * @param[in] dataLen - the length of the data 602 * @return non-zero on failure 603 */ 604 int ipmiValidateCommonHeader(const uint8_t* fruData, const size_t dataLen) 605 { 606 int rc = -1; 607 608 uint8_t commonHdr[sizeof(struct common_header)] = {0}; 609 if (dataLen >= sizeof(commonHdr)) 610 { 611 std::memcpy(commonHdr, fruData, sizeof(commonHdr)); 612 } 613 else 614 { 615 log<level::ERR>("Incomplete FRU data file", entry("SIZE=%d", dataLen)); 616 return rc; 617 } 618 619 // Verify the CRC and size 620 rc = verifyFruData(commonHdr, sizeof(commonHdr), true); 621 if (rc < 0) 622 { 623 log<level::ERR>("Failed to validate common header"); 624 return rc; 625 } 626 627 return EXIT_SUCCESS; 628 } 629 630 int validateFRUArea(const uint8_t fruid, const char* fruFilename, 631 sdbusplus::bus_t& bus, const bool bmcOnlyFru) 632 { 633 size_t dataLen = 0; 634 size_t bytesRead = 0; 635 int rc = -1; 636 637 // Vector that holds individual IPMI FRU AREAs. Although MULTI and INTERNAL 638 // are not used, keeping it here for completeness. 639 FruAreaVector fruAreaVec; 640 641 for (uint8_t fruEntry = IPMI_FRU_INTERNAL_OFFSET; 642 fruEntry < (sizeof(struct common_header) - 2); fruEntry++) 643 { 644 // Create an object and push onto a vector. 645 std::unique_ptr<IPMIFruArea> fruArea = std::make_unique<IPMIFruArea>( 646 fruid, getFruAreaType(fruEntry), bmcOnlyFru); 647 648 // Physically being present 649 bool present = access(fruFilename, F_OK) == 0; 650 fruArea->setPresent(present); 651 652 fruAreaVec.emplace_back(std::move(fruArea)); 653 } 654 655 FILE* fruFilePointer = std::fopen(fruFilename, "rb"); 656 if (fruFilePointer == NULL) 657 { 658 log<level::ERR>("Unable to open FRU file", 659 entry("FILE=%s", fruFilename), 660 entry("ERRNO=%s", std::strerror(errno))); 661 return cleanupError(fruFilePointer, fruAreaVec); 662 } 663 664 // Get the size of the file to see if it meets minimum requirement 665 if (std::fseek(fruFilePointer, 0, SEEK_END)) 666 { 667 log<level::ERR>("Unable to seek FRU file", 668 entry("FILE=%s", fruFilename), 669 entry("ERRNO=%s", std::strerror(errno))); 670 return cleanupError(fruFilePointer, fruAreaVec); 671 } 672 673 // Allocate a buffer to hold entire file content 674 dataLen = std::ftell(fruFilePointer); 675 676 auto fruData = std::vector<uint8_t>(dataLen, 0); 677 678 std::rewind(fruFilePointer); 679 bytesRead = std::fread(fruData.data(), dataLen, 1, fruFilePointer); 680 if (bytesRead != 1) 681 { 682 log<level::ERR>("Failed reading FRU data.", 683 entry("BYTESREAD=%d", bytesRead), 684 entry("ERRNO=%s", std::strerror(errno))); 685 return cleanupError(fruFilePointer, fruAreaVec); 686 } 687 688 // We are done reading. 689 std::fclose(fruFilePointer); 690 fruFilePointer = NULL; 691 692 rc = ipmiValidateCommonHeader(fruData.data(), dataLen); 693 if (rc < 0) 694 { 695 return cleanupError(fruFilePointer, fruAreaVec); 696 } 697 698 // Now that we validated the common header, populate various FRU sections if 699 // we have them here. 700 rc = ipmiPopulateFruAreas(fruData.data(), dataLen, fruAreaVec); 701 if (rc < 0) 702 { 703 log<level::ERR>("Populating FRU areas failed", entry("FRU=%d", fruid)); 704 return cleanupError(fruFilePointer, fruAreaVec); 705 } 706 else 707 { 708 log<level::DEBUG>("Populated FRU areas", entry("FILE=%s", fruFilename)); 709 } 710 711 #ifdef __IPMI_DEBUG__ 712 for (const auto& iter : fruAreaVec) 713 { 714 std::printf("FRU ID : [%d]\n", iter->getFruID()); 715 std::printf("AREA NAME : [%s]\n", iter->getName()); 716 std::printf("TYPE : [%d]\n", iter->getType()); 717 std::printf("LEN : [%d]\n", iter->getLength()); 718 } 719 #endif 720 721 // If the vector is populated with everything, then go ahead and update the 722 // inventory. 723 if (!(fruAreaVec.empty())) 724 { 725 #ifdef __IPMI_DEBUG__ 726 std::printf("\n SIZE of vector is : [%d] \n", fruAreaVec.size()); 727 #endif 728 rc = updateInventory(fruAreaVec, bus); 729 if (rc < 0) 730 { 731 log<level::ERR>("Error updating inventory."); 732 } 733 } 734 735 // we are done with all that we wanted to do. This will do the job of 736 // calling any destructors too. 737 fruAreaVec.clear(); 738 739 return rc; 740 } 741