1 #include "common/types.hpp" 2 #include "pldm_cmd_helper.hpp" 3 4 #include <libpldm/entity.h> 5 #include <libpldm/platform.h> 6 #include <libpldm/state_set.h> 7 8 #include <algorithm> 9 #include <cstddef> 10 #include <map> 11 #include <ranges> 12 13 #ifdef OEM_IBM 14 #include "oem/ibm/oem_ibm_state_set.hpp" 15 #endif 16 17 using namespace pldm::utils; 18 19 namespace pldmtool 20 { 21 namespace platform 22 { 23 namespace 24 { 25 using namespace pldmtool::helper; 26 27 static const std::map<uint8_t, std::string> sensorPresState{ 28 {PLDM_SENSOR_UNKNOWN, "Sensor Unknown"}, 29 {PLDM_SENSOR_NORMAL, "Sensor Normal"}, 30 {PLDM_SENSOR_WARNING, "Sensor Warning"}, 31 {PLDM_SENSOR_CRITICAL, "Sensor Critical"}, 32 {PLDM_SENSOR_FATAL, "Sensor Fatal"}, 33 {PLDM_SENSOR_LOWERWARNING, "Sensor Lower Warning"}, 34 {PLDM_SENSOR_LOWERCRITICAL, "Sensor Lower Critical"}, 35 {PLDM_SENSOR_LOWERFATAL, "Sensor Lower Fatal"}, 36 {PLDM_SENSOR_UPPERWARNING, "Sensor Upper Warning"}, 37 {PLDM_SENSOR_UPPERCRITICAL, "Sensor Upper Critical"}, 38 {PLDM_SENSOR_UPPERFATAL, "Sensor Upper Fatal"}}; 39 40 static const std::map<uint8_t, std::string> sensorOpState{ 41 {PLDM_SENSOR_ENABLED, "Sensor Enabled"}, 42 {PLDM_SENSOR_DISABLED, "Sensor Disabled"}, 43 {PLDM_SENSOR_UNAVAILABLE, "Sensor Unavailable"}, 44 {PLDM_SENSOR_STATUSUNKOWN, "Sensor Status Unknown"}, 45 {PLDM_SENSOR_FAILED, "Sensor Failed"}, 46 {PLDM_SENSOR_INITIALIZING, "Sensor Sensor Intializing"}, 47 {PLDM_SENSOR_SHUTTINGDOWN, "Sensor Shutting down"}, 48 {PLDM_SENSOR_INTEST, "Sensor Intest"}}; 49 50 std::vector<std::unique_ptr<CommandInterface>> commands; 51 52 } // namespace 53 54 using ordered_json = nlohmann::ordered_json; 55 56 class GetPDR : public CommandInterface 57 { 58 public: 59 ~GetPDR() = default; 60 GetPDR() = delete; 61 GetPDR(const GetPDR&) = delete; 62 GetPDR(GetPDR&&) = default; 63 GetPDR& operator=(const GetPDR&) = delete; 64 GetPDR& operator=(GetPDR&&) = delete; 65 66 using CommandInterface::CommandInterface; 67 68 explicit GetPDR(const char* type, const char* name, CLI::App* app) : 69 CommandInterface(type, name, app) 70 { 71 auto pdrOptionGroup = app->add_option_group( 72 "Required Option", 73 "Retrieve individual PDR, all PDRs, PDRs of a requested type or retrieve all PDRs of the requested terminusID"); 74 pdrOptionGroup->add_option( 75 "-d,--data", recordHandle, 76 "retrieve individual PDRs from a PDR Repository\n" 77 "eg: The recordHandle value for the PDR to be retrieved and 0 " 78 "means get first PDR in the repository."); 79 pdrRecType = ""; 80 pdrOptionGroup->add_option("-t, --type", pdrRecType, 81 "retrieve all PDRs of the requested type\n" 82 "supported types:\n" 83 "[terminusLocator, stateSensor, " 84 "numericEffecter, stateEffecter, " 85 "compactNumericSensor, sensorauxname, " 86 "efffecterAuxName, " 87 "EntityAssociation, fruRecord, ... ]"); 88 89 getPDRGroupOption = pdrOptionGroup->add_option( 90 "-i, --terminusID", pdrTerminus, 91 "retrieve all PDRs of the requested terminusID\n" 92 "supported IDs:\n [1, 2, 208...]"); 93 94 allPDRs = false; 95 pdrOptionGroup->add_flag("-a, --all", allPDRs, 96 "retrieve all PDRs from a PDR repository"); 97 98 pdrOptionGroup->require_option(1); 99 } 100 101 void parseGetPDROptions() 102 { 103 optTIDSet = false; 104 if (getPDRGroupOption->count() > 0) 105 { 106 optTIDSet = true; 107 getPDRs(); 108 } 109 } 110 111 void getPDRs() 112 { 113 // start the array 114 std::cout << "["; 115 116 recordHandle = 0; 117 do 118 { 119 CommandInterface::exec(); 120 } while (recordHandle != 0); 121 122 // close the array 123 std::cout << "]\n"; 124 125 if (handleFound) 126 { 127 recordHandle = 0; 128 uint32_t prevRecordHandle = 0; 129 do 130 { 131 CommandInterface::exec(); 132 if (recordHandle == prevRecordHandle) 133 { 134 return; 135 } 136 prevRecordHandle = recordHandle; 137 } while (recordHandle != 0); 138 } 139 } 140 141 void exec() override 142 { 143 if (allPDRs || !pdrRecType.empty()) 144 { 145 if (!pdrRecType.empty()) 146 { 147 std::transform(pdrRecType.begin(), pdrRecType.end(), 148 pdrRecType.begin(), tolower); 149 } 150 151 // start the array 152 std::cout << "[\n"; 153 154 // Retrieve all PDR records starting from the first 155 recordHandle = 0; 156 uint32_t prevRecordHandle = 0; 157 std::map<uint32_t, uint32_t> recordsSeen; 158 do 159 { 160 CommandInterface::exec(); 161 // recordHandle is updated to nextRecord when 162 // CommandInterface::exec() is successful. 163 // In case of any error, return. 164 if (recordHandle == prevRecordHandle) 165 { 166 return; 167 } 168 169 // check for circular references. 170 auto result = recordsSeen.emplace(recordHandle, 171 prevRecordHandle); 172 if (!result.second) 173 { 174 std::cerr 175 << "Record handle " << recordHandle 176 << " has multiple references: " << result.first->second 177 << ", " << prevRecordHandle << "\n"; 178 return; 179 } 180 prevRecordHandle = recordHandle; 181 182 if (recordHandle != 0) 183 { 184 // close the array 185 std::cout << ","; 186 } 187 } while (recordHandle != 0); 188 189 // close the array 190 std::cout << "]\n"; 191 } 192 else 193 { 194 CommandInterface::exec(); 195 } 196 } 197 198 std::pair<int, std::vector<uint8_t>> createRequestMsg() override 199 { 200 std::vector<uint8_t> requestMsg(sizeof(pldm_msg_hdr) + 201 PLDM_GET_PDR_REQ_BYTES); 202 auto request = reinterpret_cast<pldm_msg*>(requestMsg.data()); 203 204 auto rc = encode_get_pdr_req(instanceId, recordHandle, 0, 205 PLDM_GET_FIRSTPART, UINT16_MAX, 0, request, 206 PLDM_GET_PDR_REQ_BYTES); 207 return {rc, requestMsg}; 208 } 209 210 void parseResponseMsg(pldm_msg* responsePtr, size_t payloadLength) override 211 { 212 uint8_t completionCode = 0; 213 uint8_t recordData[UINT16_MAX] = {0}; 214 uint32_t nextRecordHndl = 0; 215 uint32_t nextDataTransferHndl = 0; 216 uint8_t transferFlag = 0; 217 uint16_t respCnt = 0; 218 uint8_t transferCRC = 0; 219 220 auto rc = decode_get_pdr_resp( 221 responsePtr, payloadLength, &completionCode, &nextRecordHndl, 222 &nextDataTransferHndl, &transferFlag, &respCnt, recordData, 223 sizeof(recordData), &transferCRC); 224 225 if (rc != PLDM_SUCCESS || completionCode != PLDM_SUCCESS) 226 { 227 std::cerr << "Response Message Error: " 228 << "rc=" << rc << ",cc=" << (int)completionCode 229 << std::endl; 230 return; 231 } 232 233 if (optTIDSet && !handleFound) 234 { 235 terminusHandle = getTerminusHandle(recordData, pdrTerminus); 236 if (terminusHandle.has_value()) 237 { 238 recordHandle = 0; 239 return; 240 } 241 else 242 { 243 recordHandle = nextRecordHndl; 244 return; 245 } 246 } 247 248 else 249 { 250 printPDRMsg(nextRecordHndl, respCnt, recordData, terminusHandle); 251 recordHandle = nextRecordHndl; 252 } 253 } 254 255 private: 256 const std::map<pldm::pdr::EntityType, std::string> entityType = { 257 {PLDM_ENTITY_UNSPECIFIED, "Unspecified"}, 258 {PLDM_ENTITY_OTHER, "Other"}, 259 {PLDM_ENTITY_NETWORK, "Network"}, 260 {PLDM_ENTITY_GROUP, "Group"}, 261 {PLDM_ENTITY_REMOTE_MGMT_COMM_DEVICE, 262 "Remote Management Communication Device"}, 263 {PLDM_ENTITY_EXTERNAL_ENVIRONMENT, "External Environment"}, 264 {PLDM_ENTITY_COMM_CHANNEL, " Communication Channel"}, 265 {PLDM_ENTITY_TERMINUS, "PLDM Terminus"}, 266 {PLDM_ENTITY_PLATFORM_EVENT_LOG, " Platform Event Log"}, 267 {PLDM_ENTITY_KEYPAD, "keypad"}, 268 {PLDM_ENTITY_SWITCH, "Switch"}, 269 {PLDM_ENTITY_PUSHBUTTON, "Pushbutton"}, 270 {PLDM_ENTITY_DISPLAY, "Display"}, 271 {PLDM_ENTITY_INDICATOR, "Indicator"}, 272 {PLDM_ENTITY_SYS_MGMT_SW, "System Management Software"}, 273 {PLDM_ENTITY_SYS_FIRMWARE, "System Firmware"}, 274 {PLDM_ENTITY_OPERATING_SYS, "Operating System"}, 275 {PLDM_ENTITY_VIRTUAL_MACHINE_MANAGER, "Virtual Machine Manager"}, 276 {PLDM_ENTITY_OS_LOADER, "OS Loader"}, 277 {PLDM_ENTITY_DEVICE_DRIVER, "Device Driver"}, 278 {PLDM_ENTITY_MGMT_CONTROLLER_FW, "Management Controller Firmware"}, 279 {PLDM_ENTITY_SYSTEM_CHASSIS, "System chassis (main enclosure)"}, 280 {PLDM_ENTITY_SUB_CHASSIS, "Sub-chassis"}, 281 {PLDM_ENTITY_DISK_DRIVE_BAY, "Disk Drive Bay"}, 282 {PLDM_ENTITY_PERIPHERAL_BAY, "Peripheral Bay"}, 283 {PLDM_ENTITY_DEVICE_BAY, "Device bay"}, 284 {PLDM_ENTITY_DOOR, "Door"}, 285 {PLDM_ENTITY_ACCESS_PANEL, "Access Panel"}, 286 {PLDM_ENTITY_COVER, "Cover"}, 287 {PLDM_ENTITY_BOARD, "Board"}, 288 {PLDM_ENTITY_CARD, "Card"}, 289 {PLDM_ENTITY_MODULE, "Module"}, 290 {PLDM_ENTITY_SYS_MGMT_MODULE, "System management module"}, 291 {PLDM_ENTITY_SYS_BOARD, "System Board"}, 292 {PLDM_ENTITY_MEMORY_BOARD, "Memory Board"}, 293 {PLDM_ENTITY_MEMORY_MODULE, "Memory Module"}, 294 {PLDM_ENTITY_PROC_MODULE, "Processor Module"}, 295 {PLDM_ENTITY_ADD_IN_CARD, "Add-in Card"}, 296 {PLDM_ENTITY_CHASSIS_FRONT_PANEL_BOARD, 297 "Chassis front panel board(control panel)"}, 298 {PLDM_ENTITY_BACK_PANEL_BOARD, "Back panel board"}, 299 {PLDM_ENTITY_POWER_MGMT, "Power management board"}, 300 {PLDM_ENTITY_POWER_SYS_BOARD, "Power system board"}, 301 {PLDM_ENTITY_DRIVE_BACKPLANE, "Drive backplane"}, 302 {PLDM_ENTITY_SYS_INTERNAL_EXPANSION_BOARD, 303 "System internal expansion board"}, 304 {PLDM_ENTITY_OTHER_SYS_BOARD, "Other system board"}, 305 {PLDM_ENTITY_CHASSIS_BACK_PANEL_BOARD, "Chassis back panel board"}, 306 {PLDM_ENTITY_PROCESSING_BLADE, "Processing blade"}, 307 {PLDM_ENTITY_CONNECTIVITY_SWITCH, "Connectivity switch"}, 308 {PLDM_ENTITY_PROC_MEMORY_MODULE, "Processor/Memory Module"}, 309 {PLDM_ENTITY_IO_MODULE, "I/O Module"}, 310 {PLDM_ENTITY_PROC_IO_MODULE, "Processor I/O Module"}, 311 {PLDM_ENTITY_COOLING_DEVICE, "Cooling device"}, 312 {PLDM_ENTITY_COOLING_SUBSYSTEM, "Cooling subsystem"}, 313 {PLDM_ENTITY_COOLING_UNIT, "Cooling Unit"}, 314 {PLDM_ENTITY_FAN, "Fan"}, 315 {PLDM_ENTITY_PELTIER_COOLING_DEVICE, "Peltier Cooling Device"}, 316 {PLDM_ENTITY_LIQUID_COOLING_DEVICE, "Liquid Cooling Device"}, 317 {PLDM_ENTITY_LIQUID_COOLING_SUBSYSTEM, "Liquid Colling Subsystem"}, 318 {PLDM_ENTITY_OTHER_STORAGE_DEVICE, "Other Storage Device"}, 319 {PLDM_ENTITY_FLOPPY_DRIVE, "Floppy Drive"}, 320 {PLDM_ENTITY_FIXED_DISK_HARD_DRIVE, "Hard Drive"}, 321 {PLDM_ENTITY_CD_DRIVE, "CD Drive"}, 322 {PLDM_ENTITY_CD_DVD_DRIVE, "CD/DVD Drive"}, 323 {PLDM_ENTITY_OTHER_SILICON_STORAGE_DEVICE, 324 "Other Silicon Storage Device"}, 325 {PLDM_ENTITY_SOLID_STATE_SRIVE, "Solid State Drive"}, 326 {PLDM_ENTITY_POWER_SUPPLY, "Power supply"}, 327 {PLDM_ENTITY_BATTERY, "Battery"}, 328 {PLDM_ENTITY_SUPER_CAPACITOR, "Super Capacitor"}, 329 {PLDM_ENTITY_POWER_CONVERTER, "Power Converter"}, 330 {PLDM_ENTITY_DC_DC_CONVERTER, "DC-DC Converter"}, 331 {PLDM_ENTITY_AC_MAINS_POWER_SUPPLY, "AC mains power supply"}, 332 {PLDM_ENTITY_DC_MAINS_POWER_SUPPLY, "DC mains power supply"}, 333 {PLDM_ENTITY_PROC, "Processor"}, 334 {PLDM_ENTITY_CHIPSET_COMPONENT, "Chipset Component"}, 335 {PLDM_ENTITY_MGMT_CONTROLLER, "Management Controller"}, 336 {PLDM_ENTITY_PERIPHERAL_CONTROLLER, "Peripheral Controller"}, 337 {PLDM_ENTITY_SEEPROM, "SEEPROM"}, 338 {PLDM_ENTITY_NVRAM_CHIP, "NVRAM Chip"}, 339 {PLDM_ENTITY_FLASH_MEMORY_CHIP, "FLASH Memory chip"}, 340 {PLDM_ENTITY_MEMORY_CHIP, "Memory Chip"}, 341 {PLDM_ENTITY_MEMORY_CONTROLLER, "Memory Controller"}, 342 {PLDM_ENTITY_NETWORK_CONTROLLER, "Network Controller"}, 343 {PLDM_ENTITY_IO_CONTROLLER, "I/O Controller"}, 344 {PLDM_ENTITY_SOUTH_BRIDGE, "South Bridge"}, 345 {PLDM_ENTITY_REAL_TIME_CLOCK, "Real Time Clock (RTC)"}, 346 {PLDM_ENTITY_FPGA_CPLD_DEVICE, "FPGA/CPLD Configurable Logic Device"}, 347 {PLDM_ENTITY_OTHER_BUS, "Other Bus"}, 348 {PLDM_ENTITY_SYS_BUS, "System Bus"}, 349 {PLDM_ENTITY_I2C_BUS, "I2C Bus"}, 350 {PLDM_ENTITY_SMBUS_BUS, "SMBus Bus"}, 351 {PLDM_ENTITY_SPI_BUS, "SPI Bus"}, 352 {PLDM_ENTITY_PCI_BUS, "PCI Bus"}, 353 {PLDM_ENTITY_PCI_EXPRESS_BUS, "PCI Express Bus"}, 354 {PLDM_ENTITY_PECI_BUS, "PECI Bus"}, 355 {PLDM_ENTITY_LPC_BUS, "LPC Bus"}, 356 {PLDM_ENTITY_USB_BUS, "USB Bus"}, 357 {PLDM_ENTITY_FIREWIRE_BUS, "FireWire Bus"}, 358 {PLDM_ENTITY_SCSI_BUS, "SCSI Bus"}, 359 {PLDM_ENTITY_SATA_SAS_BUS, "SATA/SAS Bus"}, 360 {PLDM_ENTITY_PROC_FRONT_SIDE_BUS, "Processor/Front-side Bus"}, 361 {PLDM_ENTITY_INTER_PROC_BUS, "Inter-processor Bus"}, 362 {PLDM_ENTITY_CONNECTOR, "Connector"}, 363 {PLDM_ENTITY_SLOT, "Slot"}, 364 {PLDM_ENTITY_CABLE, "Cable(electrical or optical)"}, 365 {PLDM_ENTITY_INTERCONNECT, "Interconnect"}, 366 {PLDM_ENTITY_PLUG, "Plug"}, 367 {PLDM_ENTITY_SOCKET, "Socket"}, 368 }; 369 370 const std::map<uint16_t, std::string> stateSet = { 371 {PLDM_STATE_SET_HEALTH_STATE, "Health State"}, 372 {PLDM_STATE_SET_AVAILABILITY, "Availability"}, 373 {PLDM_STATE_SET_PREDICTIVE_CONDITION, "Predictive Condition"}, 374 {PLDM_STATE_SET_REDUNDANCY_STATUS, "Redundancy Status"}, 375 {PLDM_STATE_SET_HEALTH_REDUNDANCY_TREND, "Health/Redundancy Trend"}, 376 {PLDM_STATE_SET_GROUP_RESOURCE_LEVEL, "Group Resource Level"}, 377 {PLDM_STATE_SET_REDUNDANCY_ENTITY_ROLE, "Redundancy Entity Role"}, 378 {PLDM_STATE_SET_OPERATIONAL_STATUS, "Operational Status"}, 379 {PLDM_STATE_SET_OPERATIONAL_STRESS_STATUS, "Operational Stress Status"}, 380 {PLDM_STATE_SET_OPERATIONAL_FAULT_STATUS, "Operational Fault Status"}, 381 {PLDM_STATE_SET_OPERATIONAL_RUNNING_STATUS, 382 "Operational Running Status"}, 383 {PLDM_STATE_SET_OPERATIONAL_CONNECTION_STATUS, 384 "Operational Connection Status"}, 385 {PLDM_STATE_SET_PRESENCE, "Presence"}, 386 {PLDM_STATE_SET_PERFORMANCE, "Performance"}, 387 {PLDM_STATE_SET_CONFIGURATION_STATE, "Configuration State"}, 388 {PLDM_STATE_SET_CHANGED_CONFIGURATION, "Changed Configuration"}, 389 {PLDM_STATE_SET_IDENTIFY_STATE, "Identify State"}, 390 {PLDM_STATE_SET_VERSION, "Version"}, 391 {PLDM_STATE_SET_ALARM_STATE, "Alarm State"}, 392 {PLDM_STATE_SET_DEVICE_INITIALIZATION, "Device Initialization"}, 393 {PLDM_STATE_SET_THERMAL_TRIP, "Thermal Trip"}, 394 {PLDM_STATE_SET_HEARTBEAT, "Heartbeat"}, 395 {PLDM_STATE_SET_LINK_STATE, "Link State"}, 396 {PLDM_STATE_SET_SMOKE_STATE, "Smoke State"}, 397 {PLDM_STATE_SET_HUMIDITY_STATE, "Humidity State"}, 398 {PLDM_STATE_SET_DOOR_STATE, "Door State"}, 399 {PLDM_STATE_SET_SWITCH_STATE, "Switch State"}, 400 {PLDM_STATE_SET_LOCK_STATE, "Lock State"}, 401 {PLDM_STATE_SET_PHYSICAL_SECURITY, "Physical Security"}, 402 {PLDM_STATE_SET_DOCK_AUTHORIZATION, "Dock Authorization"}, 403 {PLDM_STATE_SET_HW_SECURITY, "Hardware Security"}, 404 {PLDM_STATE_SET_PHYSICAL_COMM_CONNECTION, 405 "Physical Communication Connection"}, 406 {PLDM_STATE_SET_COMM_LEASH_STATUS, "Communication Leash Status"}, 407 {PLDM_STATE_SET_FOREIGN_NW_DETECTION_STATUS, 408 "Foreign Network Detection Status"}, 409 {PLDM_STATE_SET_PASSWORD_PROTECTED_ACCESS_SECURITY, 410 "Password-Protected Access Security"}, 411 {PLDM_STATE_SET_SECURITY_ACCESS_PRIVILEGE_LEVEL, 412 "Security Access –PrivilegeLevel"}, 413 {PLDM_STATE_SET_SESSION_AUDIT, "PLDM Session Audit"}, 414 {PLDM_STATE_SET_SW_TERMINATION_STATUS, "Software Termination Status"}, 415 {PLDM_STATE_SET_STORAGE_MEDIA_ACTIVITY, "Storage Media Activity"}, 416 {PLDM_STATE_SET_BOOT_RESTART_CAUSE, "Boot/Restart Cause"}, 417 {PLDM_STATE_SET_BOOT_RESTART_REQUEST, "Boot/Restart Request"}, 418 {PLDM_STATE_SET_ENTITY_BOOT_STATUS, "Entity Boot Status"}, 419 {PLDM_STATE_SET_BOOT_ERROR_STATUS, "Boot ErrorStatus"}, 420 {PLDM_STATE_SET_BOOT_PROGRESS, "Boot Progress"}, 421 {PLDM_STATE_SET_SYS_FIRMWARE_HANG, "System Firmware Hang"}, 422 {PLDM_STATE_SET_POST_ERRORS, "POST Errors"}, 423 {PLDM_STATE_SET_LOG_FILL_STATUS, "Log Fill Status"}, 424 {PLDM_STATE_SET_LOG_FILTER_STATUS, "Log Filter Status"}, 425 {PLDM_STATE_SET_LOG_TIMESTAMP_CHANGE, "Log Timestamp Change"}, 426 {PLDM_STATE_SET_INTERRUPT_REQUESTED, "Interrupt Requested"}, 427 {PLDM_STATE_SET_INTERRUPT_RECEIVED, "Interrupt Received"}, 428 {PLDM_STATE_SET_DIAGNOSTIC_INTERRUPT_REQUESTED, 429 "Diagnostic Interrupt Requested"}, 430 {PLDM_STATE_SET_DIAGNOSTIC_INTERRUPT_RECEIVED, 431 "Diagnostic Interrupt Received"}, 432 {PLDM_STATE_SET_IO_CHANNEL_CHECK_NMI_REQUESTED, 433 "I/O Channel Check NMI Requested"}, 434 {PLDM_STATE_SET_IO_CHANNEL_CHECK_NMI_RECEIVED, 435 "I/O Channel Check NMI Received"}, 436 {PLDM_STATE_SET_FATAL_NMI_REQUESTED, "Fatal NMI Requested"}, 437 {PLDM_STATE_SET_FATAL_NMI_RECEIVED, "Fatal NMI Received"}, 438 {PLDM_STATE_SET_SOFTWARE_NMI_REQUESTED, "Software NMI Requested"}, 439 {PLDM_STATE_SET_SOFTWARE_NMI_RECEIVED, "Software NMI Received"}, 440 {PLDM_STATE_SET_SMI_REQUESTED, "SMI Requested"}, 441 {PLDM_STATE_SET_SMI_RECEIVED, "SMI Received"}, 442 {PLDM_STATE_SET_PCI_PERR_REQUESTED, "PCI PERR Requested"}, 443 {PLDM_STATE_SET_PCI_PERR_RECEIVED, "PCI PERR Received"}, 444 {PLDM_STATE_SET_PCI_SERR_REQUESTED, "PCI SERR Requested "}, 445 {PLDM_STATE_SET_PCI_SERR_RECEIVED, "PCI SERR Received"}, 446 {PLDM_STATE_SET_BUS_ERROR_STATUS, "Bus Error Status"}, 447 {PLDM_STATE_SET_WATCHDOG_STATUS, "Watchdog Status"}, 448 {PLDM_STATE_SET_POWER_SUPPLY_STATE, "Power Supply State"}, 449 {PLDM_STATE_SET_DEVICE_POWER_STATE, "Device Power State"}, 450 {PLDM_STATE_SET_ACPI_POWER_STATE, "ACPI Power State"}, 451 {PLDM_STATE_SET_BACKUP_POWER_SOURCE, "Backup Power Source"}, 452 {PLDM_STATE_SET_SYSTEM_POWER_STATE, "System Power State "}, 453 {PLDM_STATE_SET_BATTERY_ACTIVITY, "Battery Activity"}, 454 {PLDM_STATE_SET_BATTERY_STATE, "Battery State"}, 455 {PLDM_STATE_SET_PROC_POWER_STATE, "Processor Power State"}, 456 {PLDM_STATE_SET_POWER_PERFORMANCE_STATE, "Power-Performance State"}, 457 {PLDM_STATE_SET_PROC_ERROR_STATUS, "Processor Error Status"}, 458 {PLDM_STATE_SET_BIST_FAILURE_STATUS, "BIST FailureStatus"}, 459 {PLDM_STATE_SET_IBIST_FAILURE_STATUS, "IBIST FailureStatus"}, 460 {PLDM_STATE_SET_PROC_HANG_IN_POST, "Processor Hang in POST"}, 461 {PLDM_STATE_SET_PROC_STARTUP_FAILURE, "Processor Startup Failure"}, 462 {PLDM_STATE_SET_UNCORRECTABLE_CPU_ERROR, "Uncorrectable CPU Error"}, 463 {PLDM_STATE_SET_MACHINE_CHECK_ERROR, "Machine Check Error"}, 464 {PLDM_STATE_SET_CORRECTED_MACHINE_CHECK, "Corrected Machine Check"}, 465 {PLDM_STATE_SET_CACHE_STATUS, "Cache Status"}, 466 {PLDM_STATE_SET_MEMORY_ERROR_STATUS, "Memory Error Status"}, 467 {PLDM_STATE_SET_REDUNDANT_MEMORY_ACTIVITY_STATUS, 468 "Redundant Memory Activity Status"}, 469 {PLDM_STATE_SET_ERROR_DETECTION_STATUS, "Error Detection Status"}, 470 {PLDM_STATE_SET_STUCK_BIT_STATUS, "Stuck Bit Status"}, 471 {PLDM_STATE_SET_SCRUB_STATUS, "Scrub Status"}, 472 {PLDM_STATE_SET_SLOT_OCCUPANCY, "Slot Occupancy"}, 473 {PLDM_STATE_SET_SLOT_STATE, "Slot State"}, 474 }; 475 476 const std::array<std::string_view, 4> sensorInit = { 477 "noInit", "useInitPDR", "enableSensor", "disableSensor"}; 478 479 const std::array<std::string_view, 4> effecterInit = { 480 "noInit", "useInitPDR", "enableEffecter", "disableEffecter"}; 481 482 const std::map<uint8_t, std::string> pdrType = { 483 {PLDM_TERMINUS_LOCATOR_PDR, "Terminus Locator PDR"}, 484 {PLDM_NUMERIC_SENSOR_PDR, "Numeric Sensor PDR"}, 485 {PLDM_NUMERIC_SENSOR_INITIALIZATION_PDR, 486 "Numeric Sensor Initialization PDR"}, 487 {PLDM_STATE_SENSOR_PDR, "State Sensor PDR"}, 488 {PLDM_STATE_SENSOR_INITIALIZATION_PDR, 489 "State Sensor Initialization PDR"}, 490 {PLDM_SENSOR_AUXILIARY_NAMES_PDR, "Sensor Auxiliary Names PDR"}, 491 {PLDM_OEM_UNIT_PDR, "OEM Unit PDR"}, 492 {PLDM_OEM_STATE_SET_PDR, "OEM State Set PDR"}, 493 {PLDM_NUMERIC_EFFECTER_PDR, "Numeric Effecter PDR"}, 494 {PLDM_NUMERIC_EFFECTER_INITIALIZATION_PDR, 495 "Numeric Effecter Initialization PDR"}, 496 {PLDM_COMPACT_NUMERIC_SENSOR_PDR, "Compact Numeric Sensor PDR"}, 497 {PLDM_STATE_EFFECTER_PDR, "State Effecter PDR"}, 498 {PLDM_STATE_EFFECTER_INITIALIZATION_PDR, 499 "State Effecter Initialization PDR"}, 500 {PLDM_EFFECTER_AUXILIARY_NAMES_PDR, "Effecter Auxiliary Names PDR"}, 501 {PLDM_EFFECTER_OEM_SEMANTIC_PDR, "Effecter OEM Semantic PDR"}, 502 {PLDM_PDR_ENTITY_ASSOCIATION, "Entity Association PDR"}, 503 {PLDM_ENTITY_AUXILIARY_NAMES_PDR, "Entity Auxiliary Names PDR"}, 504 {PLDM_OEM_ENTITY_ID_PDR, "OEM Entity ID PDR"}, 505 {PLDM_INTERRUPT_ASSOCIATION_PDR, "Interrupt Association PDR"}, 506 {PLDM_EVENT_LOG_PDR, "PLDM Event Log PDR"}, 507 {PLDM_PDR_FRU_RECORD_SET, "FRU Record Set PDR"}, 508 {PLDM_OEM_DEVICE_PDR, "OEM Device PDR"}, 509 {PLDM_OEM_PDR, "OEM PDR"}, 510 }; 511 512 static inline const std::map<uint8_t, std::string> setThermalTrip{ 513 {PLDM_STATE_SET_THERMAL_TRIP_STATUS_NORMAL, "Normal"}, 514 {PLDM_STATE_SET_THERMAL_TRIP_STATUS_THERMAL_TRIP, "Thermal Trip"}}; 515 516 static inline const std::map<uint8_t, std::string> setIdentifyState{ 517 {PLDM_STATE_SET_IDENTIFY_STATE_UNASSERTED, "Identify State Unasserted"}, 518 {PLDM_STATE_SET_IDENTIFY_STATE_ASSERTED, "Identify State Asserted"}}; 519 520 static inline const std::map<uint8_t, std::string> setBootProgressState{ 521 {PLDM_STATE_SET_BOOT_PROG_STATE_NOT_ACTIVE, "Boot Not Active"}, 522 {PLDM_STATE_SET_BOOT_PROG_STATE_COMPLETED, "Boot Completed"}, 523 {PLDM_STATE_SET_BOOT_PROG_STATE_MEM_INITIALIZATION, 524 "Memory Initialization"}, 525 {PLDM_STATE_SET_BOOT_PROG_STATE_SEC_PROC_INITIALIZATION, 526 "Secondary Processor(s) Initialization"}, 527 {PLDM_STATE_SET_BOOT_PROG_STATE_PCI_RESORUCE_CONFIG, 528 "PCI Resource Configuration"}, 529 {PLDM_STATE_SET_BOOT_PROG_STATE_STARTING_OP_SYS, 530 "Starting Operating System"}, 531 {PLDM_STATE_SET_BOOT_PROG_STATE_BASE_BOARD_INITIALIZATION, 532 "Baseboard Initialization"}, 533 {PLDM_STATE_SET_BOOT_PROG_STATE_PRIMARY_PROC_INITIALIZATION, 534 "Primary Processor Initialization"}, 535 {PLDM_STATE_SET_BOOT_PROG_STATE_OSSTART, "OSStart"}}; 536 537 static inline const std::map<uint8_t, std::string> setOpFaultStatus{ 538 {PLDM_STATE_SET_OPERATIONAL_FAULT_STATUS_NORMAL, "Normal"}, 539 {PLDM_STATE_SET_OPERATIONAL_FAULT_STATUS_ERROR, "Error"}, 540 {PLDM_STATE_SET_OPERATIONAL_FAULT_STATUS_NON_RECOVERABLE_ERROR, 541 "Non Recoverable Error"}}; 542 543 static inline const std::map<uint8_t, std::string> setSysPowerState{ 544 {PLDM_STATE_SET_SYS_POWER_STATE_OFF_SOFT_GRACEFUL, 545 "Off-Soft Graceful"}}; 546 547 static inline const std::map<uint8_t, std::string> setSWTerminationStatus{ 548 {PLDM_SW_TERM_GRACEFUL_RESTART_REQUESTED, 549 "Graceful Restart Requested"}}; 550 551 static inline const std::map<uint8_t, std::string> setAvailability{ 552 {PLDM_STATE_SET_AVAILABILITY_REBOOTING, "Rebooting"}}; 553 554 static inline const std::map<uint8_t, std::string> setHealthState{ 555 {PLDM_STATE_SET_HEALTH_STATE_NORMAL, "Normal"}, 556 {PLDM_STATE_SET_HEALTH_STATE_NON_CRITICAL, "Non-Critical"}, 557 {PLDM_STATE_SET_HEALTH_STATE_CRITICAL, "Critical"}, 558 {PLDM_STATE_SET_HEALTH_STATE_FATAL, "Fatal"}, 559 {PLDM_STATE_SET_HEALTH_STATE_UPPER_NON_CRITICAL, "Upper Non-Critical"}, 560 {PLDM_STATE_SET_HEALTH_STATE_LOWER_NON_CRITICAL, "Lower Non-Critical"}, 561 {PLDM_STATE_SET_HEALTH_STATE_UPPER_CRITICAL, "Upper Critical"}, 562 {PLDM_STATE_SET_HEALTH_STATE_LOWER_CRITICAL, "Lower Critical"}, 563 {PLDM_STATE_SET_HEALTH_STATE_UPPER_FATAL, "Upper Fatal"}, 564 {PLDM_STATE_SET_HEALTH_STATE_LOWER_FATAL, "Lower Fatal"}}; 565 566 static inline const std::map<uint8_t, std::string> 567 setOperationalRunningState{ 568 {PLDM_STATE_SET_OPERATIONAL_RUNNING_STATUS_STARTING, "Starting"}, 569 {PLDM_STATE_SET_OPERATIONAL_RUNNING_STATUS_STOPPING, "Stopping"}, 570 {PLDM_STATE_SET_OPERATIONAL_RUNNING_STATUS_STOPPED, "Stopped"}, 571 {PLDM_STATE_SET_OPERATIONAL_RUNNING_STATUS_IN_SERVICE, 572 "In Service"}, 573 {PLDM_STATE_SET_OPERATIONAL_RUNNING_STATUS_ABORTED, "Aborted"}, 574 {PLDM_STATE_SET_OPERATIONAL_RUNNING_STATUS_DORMANT, "Dormant"}}; 575 576 static inline const std::map<uint16_t, const std::map<uint8_t, std::string>> 577 populatePStateMaps{ 578 {PLDM_STATE_SET_THERMAL_TRIP, setThermalTrip}, 579 {PLDM_STATE_SET_IDENTIFY_STATE, setIdentifyState}, 580 {PLDM_STATE_SET_BOOT_PROGRESS, setBootProgressState}, 581 {PLDM_STATE_SET_OPERATIONAL_FAULT_STATUS, setOpFaultStatus}, 582 {PLDM_STATE_SET_SYSTEM_POWER_STATE, setSysPowerState}, 583 {PLDM_STATE_SET_SW_TERMINATION_STATUS, setSWTerminationStatus}, 584 {PLDM_STATE_SET_AVAILABILITY, setAvailability}, 585 {PLDM_STATE_SET_HEALTH_STATE, setHealthState}, 586 {PLDM_STATE_SET_OPERATIONAL_RUNNING_STATUS, 587 setOperationalRunningState}, 588 }; 589 590 const std::map<std::string, uint8_t> strToPdrType = { 591 {"terminuslocator", PLDM_TERMINUS_LOCATOR_PDR}, 592 {"statesensor", PLDM_STATE_SENSOR_PDR}, 593 {"sensorauxname", PLDM_SENSOR_AUXILIARY_NAMES_PDR}, 594 {"numericeffecter", PLDM_NUMERIC_EFFECTER_PDR}, 595 {"efffecterauxname", PLDM_EFFECTER_AUXILIARY_NAMES_PDR}, 596 {"compactnumericsensor", PLDM_COMPACT_NUMERIC_SENSOR_PDR}, 597 {"stateeffecter", PLDM_STATE_EFFECTER_PDR}, 598 {"entityassociation", PLDM_PDR_ENTITY_ASSOCIATION}, 599 {"frurecord", PLDM_PDR_FRU_RECORD_SET}, 600 // Add other types 601 }; 602 603 bool isLogicalBitSet(const uint16_t entity_type) 604 { 605 return entity_type & 0x8000; 606 } 607 608 uint16_t getEntityTypeForLogicalEntity(const uint16_t logical_entity_type) 609 { 610 return logical_entity_type & 0x7FFF; 611 } 612 613 std::string getEntityName(pldm::pdr::EntityType type) 614 { 615 uint16_t entityNumber = type; 616 std::string entityName = "[Physical] "; 617 618 if (isLogicalBitSet(type)) 619 { 620 entityName = "[Logical] "; 621 entityNumber = getEntityTypeForLogicalEntity(type); 622 } 623 624 try 625 { 626 return entityName + entityType.at(entityNumber); 627 } 628 catch (const std::out_of_range& e) 629 { 630 auto OemString = 631 std::to_string(static_cast<unsigned>(entityNumber)); 632 if (type >= PLDM_OEM_ENTITY_TYPE_START && 633 type <= PLDM_OEM_ENTITY_TYPE_END) 634 { 635 #ifdef OEM_IBM 636 if (OemIBMEntityType.contains(entityNumber)) 637 { 638 return entityName + OemIBMEntityType.at(entityNumber) + 639 "(OEM)"; 640 } 641 #endif 642 return entityName + OemString + "(OEM)"; 643 } 644 return OemString; 645 } 646 } 647 648 std::string getStateSetName(uint16_t id) 649 { 650 auto typeString = std::to_string(id); 651 try 652 { 653 return stateSet.at(id) + "(" + typeString + ")"; 654 } 655 catch (const std::out_of_range& e) 656 { 657 return typeString; 658 } 659 } 660 661 std::vector<std::string> 662 getStateSetPossibleStateNames(uint16_t stateId, 663 const std::vector<uint8_t>& value) 664 { 665 std::vector<std::string> data{}; 666 std::map<uint8_t, std::string> stateNameMaps; 667 668 for (auto& s : value) 669 { 670 std::map<uint8_t, std::string> stateNameMaps; 671 auto pstr = std::to_string(s); 672 673 #ifdef OEM_IBM 674 if (stateId >= PLDM_OEM_STATE_SET_ID_START && 675 stateId < PLDM_OEM_STATE_SET_ID_END) 676 { 677 if (populateOemIBMStateMaps.contains(stateId)) 678 { 679 const std::map<uint8_t, std::string> stateNames = 680 populateOemIBMStateMaps.at(stateId); 681 stateNameMaps.insert(stateNames.begin(), stateNames.end()); 682 } 683 } 684 #endif 685 if (populatePStateMaps.contains(stateId)) 686 { 687 const std::map<uint8_t, std::string> stateNames = 688 populatePStateMaps.at(stateId); 689 stateNameMaps.insert(stateNames.begin(), stateNames.end()); 690 } 691 if (stateNameMaps.contains(s)) 692 { 693 data.push_back(stateNameMaps.at(s) + "(" + pstr + ")"); 694 } 695 else 696 { 697 data.push_back(pstr); 698 } 699 } 700 return data; 701 } 702 703 std::string getPDRType(uint8_t type) 704 { 705 auto typeString = std::to_string(type); 706 try 707 { 708 return pdrType.at(type); 709 } 710 catch (const std::out_of_range& e) 711 { 712 return typeString; 713 } 714 } 715 716 void printCommonPDRHeader(const pldm_pdr_hdr* hdr, ordered_json& output) 717 { 718 output["recordHandle"] = hdr->record_handle; 719 output["PDRHeaderVersion"] = unsigned(hdr->version); 720 output["PDRType"] = getPDRType(hdr->type); 721 output["recordChangeNumber"] = hdr->record_change_num; 722 output["dataLength"] = hdr->length; 723 } 724 725 std::vector<uint8_t> printPossibleStates(uint8_t possibleStatesSize, 726 const bitfield8_t* states) 727 { 728 uint8_t possibleStatesPos{}; 729 std::vector<uint8_t> data{}; 730 auto printStates = [&possibleStatesPos, &data](const bitfield8_t& val) { 731 std::stringstream pstates; 732 for (int i = 0; i < CHAR_BIT; i++) 733 { 734 if (val.byte & (1 << i)) 735 { 736 pstates << (possibleStatesPos * CHAR_BIT + i); 737 data.push_back( 738 static_cast<uint8_t>(std::stoi(pstates.str()))); 739 pstates.str(""); 740 } 741 } 742 possibleStatesPos++; 743 }; 744 std::for_each(states, states + possibleStatesSize, printStates); 745 return data; 746 } 747 748 void printStateSensorPDR(const uint8_t* data, ordered_json& output) 749 { 750 auto pdr = reinterpret_cast<const pldm_state_sensor_pdr*>(data); 751 output["PLDMTerminusHandle"] = pdr->terminus_handle; 752 output["sensorID"] = pdr->sensor_id; 753 output["entityType"] = getEntityName(pdr->entity_type); 754 output["entityInstanceNumber"] = pdr->entity_instance; 755 output["containerID"] = pdr->container_id; 756 output["sensorInit"] = sensorInit[pdr->sensor_init]; 757 output["sensorAuxiliaryNamesPDR"] = 758 (pdr->sensor_auxiliary_names_pdr ? true : false); 759 output["compositeSensorCount"] = unsigned(pdr->composite_sensor_count); 760 761 auto statesPtr = pdr->possible_states; 762 auto compCount = pdr->composite_sensor_count; 763 764 while (compCount--) 765 { 766 auto state = reinterpret_cast<const state_sensor_possible_states*>( 767 statesPtr); 768 output.emplace(("stateSetID[" + std::to_string(compCount) + "]"), 769 getStateSetName(state->state_set_id)); 770 output.emplace( 771 ("possibleStatesSize[" + std::to_string(compCount) + "]"), 772 state->possible_states_size); 773 output.emplace( 774 ("possibleStates[" + std::to_string(compCount) + "]"), 775 getStateSetPossibleStateNames( 776 state->state_set_id, 777 printPossibleStates(state->possible_states_size, 778 state->states))); 779 780 if (compCount) 781 { 782 statesPtr += sizeof(state_sensor_possible_states) + 783 state->possible_states_size - 1; 784 } 785 } 786 } 787 788 void printPDRFruRecordSet(uint8_t* data, ordered_json& output) 789 { 790 if (data == NULL) 791 { 792 return; 793 } 794 795 data += sizeof(pldm_pdr_hdr); 796 pldm_pdr_fru_record_set* pdr = 797 reinterpret_cast<pldm_pdr_fru_record_set*>(data); 798 if (!pdr) 799 { 800 std::cerr << "Failed to get the FRU record set PDR" << std::endl; 801 return; 802 } 803 804 output["PLDMTerminusHandle"] = unsigned(pdr->terminus_handle); 805 output["FRURecordSetIdentifier"] = unsigned(pdr->fru_rsi); 806 output["entityType"] = getEntityName(pdr->entity_type); 807 output["entityInstanceNumber"] = unsigned(pdr->entity_instance); 808 output["containerID"] = unsigned(pdr->container_id); 809 } 810 811 void printPDREntityAssociation(uint8_t* data, ordered_json& output) 812 { 813 const std::map<uint8_t, const char*> assocationType = { 814 {PLDM_ENTITY_ASSOCIAION_PHYSICAL, "Physical"}, 815 {PLDM_ENTITY_ASSOCIAION_LOGICAL, "Logical"}, 816 }; 817 818 if (data == NULL) 819 { 820 return; 821 } 822 823 data += sizeof(pldm_pdr_hdr); 824 pldm_pdr_entity_association* pdr = 825 reinterpret_cast<pldm_pdr_entity_association*>(data); 826 if (!pdr) 827 { 828 std::cerr << "Failed to get the PDR eneity association" 829 << std::endl; 830 return; 831 } 832 833 output["containerID"] = int(pdr->container_id); 834 if (assocationType.contains(pdr->association_type)) 835 { 836 output["associationType"] = 837 assocationType.at(pdr->association_type); 838 } 839 else 840 { 841 std::cout << "Get associationType failed.\n"; 842 } 843 output["containerEntityType"] = 844 getEntityName(pdr->container.entity_type); 845 output["containerEntityInstanceNumber"] = 846 int(pdr->container.entity_instance_num); 847 output["containerEntityContainerID"] = 848 int(pdr->container.entity_container_id); 849 output["containedEntityCount"] = 850 static_cast<unsigned>(pdr->num_children); 851 852 auto child = reinterpret_cast<pldm_entity*>(&pdr->children[0]); 853 for (int i = 0; i < pdr->num_children; ++i) 854 { 855 output.emplace("containedEntityType[" + std::to_string(i + 1) + "]", 856 getEntityName(child->entity_type)); 857 output.emplace("containedEntityInstanceNumber[" + 858 std::to_string(i + 1) + "]", 859 unsigned(child->entity_instance_num)); 860 output.emplace("containedEntityContainerID[" + 861 std::to_string(i + 1) + "]", 862 unsigned(child->entity_container_id)); 863 864 ++child; 865 } 866 } 867 868 /** @brief Format the Sensor/Effecter Aux Name PDR types to json output 869 * 870 * @param[in] data - reference to the Sensor/Effecter Aux Name PDR 871 * @param[out] output - PDRs data fields in Json format 872 */ 873 void printAuxNamePDR(uint8_t* data, ordered_json& output) 874 { 875 constexpr uint8_t nullTerminator = 0; 876 struct pldm_effecter_aux_name_pdr* auxNamePdr = 877 (struct pldm_effecter_aux_name_pdr*)data; 878 879 if (!auxNamePdr) 880 { 881 std::cerr << "Failed to get Aux Name PDR" << std::endl; 882 return; 883 } 884 885 std::string sPrefix = "effecter"; 886 if (auxNamePdr->hdr.type == PLDM_SENSOR_AUXILIARY_NAMES_PDR) 887 { 888 sPrefix = "sensor"; 889 } 890 output["terminusHandle"] = int(auxNamePdr->terminus_handle); 891 output[sPrefix + "Id"] = int(auxNamePdr->effecter_id); 892 output[sPrefix + "Count"] = int(auxNamePdr->effecter_count); 893 894 const uint8_t* ptr = auxNamePdr->effecter_names; 895 for (auto i : std::views::iota(0, (int)auxNamePdr->effecter_count)) 896 { 897 const uint8_t nameStringCount = static_cast<uint8_t>(*ptr); 898 ptr += sizeof(uint8_t); 899 for (auto j : std::views::iota(0, (int)nameStringCount)) 900 { 901 std::string nameLanguageTagKey = sPrefix + std::to_string(j) + 902 "_nameLanguageTag" + 903 std::to_string(i); 904 std::string entityAuxNameKey = sPrefix + std::to_string(j) + 905 "_entityAuxName" + 906 std::to_string(i); 907 std::string nameLanguageTag(reinterpret_cast<const char*>(ptr), 908 0, PLDM_STR_UTF_8_MAX_LEN); 909 ptr += nameLanguageTag.size() + sizeof(nullTerminator); 910 std::u16string u16NameString( 911 reinterpret_cast<const char16_t*>(ptr), 0, 912 PLDM_STR_UTF_16_MAX_LEN); 913 ptr += (u16NameString.size() + sizeof(nullTerminator)) * 914 sizeof(uint16_t); 915 std::transform(u16NameString.cbegin(), u16NameString.cend(), 916 u16NameString.begin(), 917 [](uint16_t utf16) { return be16toh(utf16); }); 918 std::string nameString = 919 std::wstring_convert<std::codecvt_utf8_utf16<char16_t>, 920 char16_t>{} 921 .to_bytes(u16NameString); 922 output[nameLanguageTagKey] = nameLanguageTag; 923 output[entityAuxNameKey] = nameString; 924 } 925 } 926 } 927 928 void printNumericEffecterPDR(uint8_t* data, ordered_json& output) 929 { 930 struct pldm_numeric_effecter_value_pdr* pdr = 931 (struct pldm_numeric_effecter_value_pdr*)data; 932 if (!pdr) 933 { 934 std::cerr << "Failed to get numeric effecter PDR" << std::endl; 935 return; 936 } 937 938 output["PLDMTerminusHandle"] = int(pdr->terminus_handle); 939 output["effecterID"] = int(pdr->effecter_id); 940 output["entityType"] = int(pdr->entity_type); 941 output["entityInstanceNumber"] = int(pdr->entity_instance); 942 output["containerID"] = int(pdr->container_id); 943 output["effecterSemanticID"] = int(pdr->effecter_semantic_id); 944 output["effecterInit"] = unsigned(pdr->effecter_init); 945 output["effecterAuxiliaryNames"] = 946 (unsigned(pdr->effecter_auxiliary_names) ? true : false); 947 output["baseUnit"] = unsigned(pdr->base_unit); 948 output["unitModifier"] = unsigned(pdr->unit_modifier); 949 output["rateUnit"] = unsigned(pdr->rate_unit); 950 output["baseOEMUnitHandle"] = unsigned(pdr->base_oem_unit_handle); 951 output["auxUnit"] = unsigned(pdr->aux_unit); 952 output["auxUnitModifier"] = unsigned(pdr->aux_unit_modifier); 953 output["auxrateUnit"] = unsigned(pdr->aux_rate_unit); 954 output["auxOEMUnitHandle"] = unsigned(pdr->aux_oem_unit_handle); 955 output["isLinear"] = (unsigned(pdr->is_linear) ? true : false); 956 output["effecterDataSize"] = unsigned(pdr->effecter_data_size); 957 output["resolution"] = unsigned(pdr->resolution); 958 output["offset"] = unsigned(pdr->offset); 959 output["accuracy"] = unsigned(pdr->accuracy); 960 output["plusTolerance"] = unsigned(pdr->plus_tolerance); 961 output["minusTolerance"] = unsigned(pdr->minus_tolerance); 962 output["stateTransitionInterval"] = 963 unsigned(pdr->state_transition_interval); 964 output["TransitionInterval"] = unsigned(pdr->transition_interval); 965 966 switch (pdr->effecter_data_size) 967 { 968 case PLDM_EFFECTER_DATA_SIZE_UINT8: 969 output["maxSettable"] = unsigned(pdr->max_settable.value_u8); 970 output["minSettable"] = unsigned(pdr->min_settable.value_u8); 971 break; 972 case PLDM_EFFECTER_DATA_SIZE_SINT8: 973 output["maxSettable"] = unsigned(pdr->max_settable.value_s8); 974 output["minSettable"] = unsigned(pdr->min_settable.value_s8); 975 break; 976 case PLDM_EFFECTER_DATA_SIZE_UINT16: 977 output["maxSettable"] = unsigned(pdr->max_settable.value_u16); 978 output["minSettable"] = unsigned(pdr->min_settable.value_u16); 979 break; 980 case PLDM_EFFECTER_DATA_SIZE_SINT16: 981 output["maxSettable"] = unsigned(pdr->max_settable.value_s16); 982 output["minSettable"] = unsigned(pdr->min_settable.value_s16); 983 break; 984 case PLDM_EFFECTER_DATA_SIZE_UINT32: 985 output["maxSettable"] = unsigned(pdr->max_settable.value_u32); 986 output["minSettable"] = unsigned(pdr->min_settable.value_u32); 987 break; 988 case PLDM_EFFECTER_DATA_SIZE_SINT32: 989 output["maxSettable"] = unsigned(pdr->max_settable.value_s32); 990 output["minSettable"] = unsigned(pdr->min_settable.value_s32); 991 break; 992 default: 993 break; 994 } 995 996 output["rangeFieldFormat"] = unsigned(pdr->range_field_format); 997 output["rangeFieldSupport"] = unsigned(pdr->range_field_support.byte); 998 999 switch (pdr->range_field_format) 1000 { 1001 case PLDM_RANGE_FIELD_FORMAT_UINT8: 1002 output["nominalValue"] = unsigned(pdr->nominal_value.value_u8); 1003 output["normalMax"] = unsigned(pdr->normal_max.value_u8); 1004 output["normalMin"] = unsigned(pdr->normal_min.value_u8); 1005 output["ratedMax"] = unsigned(pdr->rated_max.value_u8); 1006 output["ratedMin"] = unsigned(pdr->rated_min.value_u8); 1007 break; 1008 case PLDM_RANGE_FIELD_FORMAT_SINT8: 1009 output["nominalValue"] = unsigned(pdr->nominal_value.value_s8); 1010 output["normalMax"] = unsigned(pdr->normal_max.value_s8); 1011 output["normalMin"] = unsigned(pdr->normal_min.value_s8); 1012 output["ratedMax"] = unsigned(pdr->rated_max.value_s8); 1013 output["ratedMin"] = unsigned(pdr->rated_min.value_s8); 1014 break; 1015 case PLDM_RANGE_FIELD_FORMAT_UINT16: 1016 output["nominalValue"] = unsigned(pdr->nominal_value.value_u16); 1017 output["normalMax"] = unsigned(pdr->normal_max.value_u16); 1018 output["normalMin"] = unsigned(pdr->normal_min.value_u16); 1019 output["ratedMax"] = unsigned(pdr->rated_max.value_u16); 1020 output["ratedMin"] = unsigned(pdr->rated_min.value_u16); 1021 break; 1022 case PLDM_RANGE_FIELD_FORMAT_SINT16: 1023 output["nominalValue"] = unsigned(pdr->nominal_value.value_s16); 1024 output["normalMax"] = unsigned(pdr->normal_max.value_s16); 1025 output["normalMin"] = unsigned(pdr->normal_min.value_s16); 1026 output["ratedMax"] = unsigned(pdr->rated_max.value_s16); 1027 output["ratedMin"] = unsigned(pdr->rated_min.value_s16); 1028 break; 1029 case PLDM_RANGE_FIELD_FORMAT_UINT32: 1030 output["nominalValue"] = unsigned(pdr->nominal_value.value_u32); 1031 output["normalMax"] = unsigned(pdr->normal_max.value_u32); 1032 output["normalMin"] = unsigned(pdr->normal_min.value_u32); 1033 output["ratedMax"] = unsigned(pdr->rated_max.value_u32); 1034 output["ratedMin"] = unsigned(pdr->rated_min.value_u32); 1035 break; 1036 case PLDM_RANGE_FIELD_FORMAT_SINT32: 1037 output["nominalValue"] = unsigned(pdr->nominal_value.value_s32); 1038 output["normalMax"] = unsigned(pdr->normal_max.value_s32); 1039 output["normalMin"] = unsigned(pdr->normal_min.value_s32); 1040 output["ratedMax"] = unsigned(pdr->rated_max.value_s32); 1041 output["ratedMin"] = unsigned(pdr->rated_min.value_s32); 1042 break; 1043 case PLDM_RANGE_FIELD_FORMAT_REAL32: 1044 output["nominalValue"] = unsigned(pdr->nominal_value.value_f32); 1045 output["normalMax"] = unsigned(pdr->normal_max.value_f32); 1046 output["normalMin"] = unsigned(pdr->normal_min.value_f32); 1047 output["ratedMax"] = unsigned(pdr->rated_max.value_f32); 1048 output["ratedMin"] = unsigned(pdr->rated_min.value_f32); 1049 break; 1050 default: 1051 break; 1052 } 1053 } 1054 1055 void printStateEffecterPDR(const uint8_t* data, ordered_json& output) 1056 { 1057 auto pdr = reinterpret_cast<const pldm_state_effecter_pdr*>(data); 1058 1059 output["PLDMTerminusHandle"] = pdr->terminus_handle; 1060 output["effecterID"] = pdr->effecter_id; 1061 output["entityType"] = getEntityName(pdr->entity_type); 1062 output["entityInstanceNumber"] = pdr->entity_instance; 1063 output["containerID"] = pdr->container_id; 1064 output["effecterSemanticID"] = pdr->effecter_semantic_id; 1065 output["effecterInit"] = effecterInit[pdr->effecter_init]; 1066 output["effecterDescriptionPDR"] = (pdr->has_description_pdr ? true 1067 : false); 1068 output["compositeEffecterCount"] = 1069 unsigned(pdr->composite_effecter_count); 1070 1071 auto statesPtr = pdr->possible_states; 1072 auto compEffCount = pdr->composite_effecter_count; 1073 1074 while (compEffCount--) 1075 { 1076 auto state = 1077 reinterpret_cast<const state_effecter_possible_states*>( 1078 statesPtr); 1079 output.emplace(("stateSetID[" + std::to_string(compEffCount) + "]"), 1080 getStateSetName(state->state_set_id)); 1081 output.emplace( 1082 ("possibleStatesSize[" + std::to_string(compEffCount) + "]"), 1083 state->possible_states_size); 1084 output.emplace( 1085 ("possibleStates[" + std::to_string(compEffCount) + "]"), 1086 getStateSetPossibleStateNames( 1087 state->state_set_id, 1088 printPossibleStates(state->possible_states_size, 1089 state->states))); 1090 1091 if (compEffCount) 1092 { 1093 statesPtr += sizeof(state_effecter_possible_states) + 1094 state->possible_states_size - 1; 1095 } 1096 } 1097 } 1098 1099 bool checkTerminusHandle(const uint8_t* data, 1100 std::optional<uint16_t> terminusHandle) 1101 { 1102 struct pldm_pdr_hdr* pdr = (struct pldm_pdr_hdr*)data; 1103 1104 if (pdr->type == PLDM_TERMINUS_LOCATOR_PDR) 1105 { 1106 auto tlpdr = 1107 reinterpret_cast<const pldm_terminus_locator_pdr*>(data); 1108 1109 if (tlpdr->terminus_handle != terminusHandle) 1110 { 1111 return true; 1112 } 1113 } 1114 else if (pdr->type == PLDM_STATE_SENSOR_PDR) 1115 { 1116 auto sensor = reinterpret_cast<const pldm_state_sensor_pdr*>(data); 1117 1118 if (sensor->terminus_handle != terminusHandle) 1119 { 1120 return true; 1121 } 1122 } 1123 else if (pdr->type == PLDM_NUMERIC_EFFECTER_PDR) 1124 { 1125 auto numericEffecter = 1126 reinterpret_cast<const pldm_numeric_effecter_value_pdr*>(data); 1127 1128 if (numericEffecter->terminus_handle != terminusHandle) 1129 { 1130 return true; 1131 } 1132 } 1133 1134 else if (pdr->type == PLDM_STATE_EFFECTER_PDR) 1135 { 1136 auto stateEffecter = 1137 reinterpret_cast<const pldm_state_effecter_pdr*>(data); 1138 if (stateEffecter->terminus_handle != terminusHandle) 1139 { 1140 return true; 1141 } 1142 } 1143 else if (pdr->type == PLDM_PDR_FRU_RECORD_SET) 1144 { 1145 data += sizeof(pldm_pdr_hdr); 1146 auto fru = reinterpret_cast<const pldm_pdr_fru_record_set*>(data); 1147 1148 if (fru->terminus_handle != terminusHandle) 1149 { 1150 return true; 1151 } 1152 } 1153 else 1154 { 1155 // Entity association PDRs does not have terminus handle 1156 return true; 1157 } 1158 1159 return false; 1160 } 1161 1162 void printTerminusLocatorPDR(const uint8_t* data, ordered_json& output) 1163 { 1164 const std::array<std::string_view, 4> terminusLocatorType = { 1165 "UID", "MCTP_EID", "SMBusRelative", "systemSoftware"}; 1166 1167 auto pdr = reinterpret_cast<const pldm_terminus_locator_pdr*>(data); 1168 1169 output["PLDMTerminusHandle"] = pdr->terminus_handle; 1170 output["validity"] = (pdr->validity ? "valid" : "notValid"); 1171 output["TID"] = unsigned(pdr->tid); 1172 output["containerID"] = pdr->container_id; 1173 output["terminusLocatorType"] = 1174 terminusLocatorType[pdr->terminus_locator_type]; 1175 output["terminusLocatorValueSize"] = 1176 unsigned(pdr->terminus_locator_value_size); 1177 1178 if (pdr->terminus_locator_type == PLDM_TERMINUS_LOCATOR_TYPE_MCTP_EID) 1179 { 1180 auto locatorValue = 1181 reinterpret_cast<const pldm_terminus_locator_type_mctp_eid*>( 1182 pdr->terminus_locator_value); 1183 output["EID"] = unsigned(locatorValue->eid); 1184 } 1185 } 1186 1187 std::optional<uint16_t> getTerminusHandle(uint8_t* data, 1188 std::optional<uint8_t> tid) 1189 { 1190 struct pldm_pdr_hdr* pdr = (struct pldm_pdr_hdr*)data; 1191 if (pdr->type == PLDM_TERMINUS_LOCATOR_PDR) 1192 { 1193 auto pdr = reinterpret_cast<const pldm_terminus_locator_pdr*>(data); 1194 if (pdr->tid == tid) 1195 { 1196 handleFound = true; 1197 return pdr->terminus_handle; 1198 } 1199 } 1200 return std::nullopt; 1201 } 1202 1203 /** @brief Format the Compact Numeric Sensor PDR types to json output 1204 * 1205 * @param[in] data - reference to the Compact Numeric Sensor PDR 1206 * @param[out] output - PDRs data fields in Json format 1207 */ 1208 void printCompactNumericSensorPDR(const uint8_t* data, ordered_json& output) 1209 { 1210 struct pldm_compact_numeric_sensor_pdr* pdr = 1211 (struct pldm_compact_numeric_sensor_pdr*)data; 1212 if (!pdr) 1213 { 1214 std::cerr << "Failed to get compact numeric sensor PDR" 1215 << std::endl; 1216 return; 1217 } 1218 output["PLDMTerminusHandle"] = int(pdr->terminus_handle); 1219 output["sensorID"] = int(pdr->sensor_id); 1220 output["entityType"] = getEntityName(pdr->entity_type); 1221 output["entityInstanceNumber"] = int(pdr->entity_instance); 1222 output["containerID"] = int(pdr->container_id); 1223 output["sensorNameStringByteLength"] = int(pdr->sensor_name_length); 1224 if (pdr->sensor_name_length == 0) 1225 { 1226 output["Name"] = std::format("PLDM_Device_TID{}_SensorId{}", 1227 unsigned(pdr->terminus_handle), 1228 unsigned(pdr->sensor_id)); 1229 } 1230 else 1231 { 1232 std::string sTemp(reinterpret_cast<const char*>(pdr->sensor_name), 1233 pdr->sensor_name_length); 1234 output["Name"] = sTemp; 1235 } 1236 output["baseUnit"] = unsigned(pdr->base_unit); 1237 output["unitModifier"] = signed(pdr->unit_modifier); 1238 output["occurrenceRate"] = unsigned(pdr->occurrence_rate); 1239 output["rangeFieldSupport"] = unsigned(pdr->range_field_support.byte); 1240 if (pdr->range_field_support.bits.bit0) 1241 { 1242 output["warningHigh"] = int(pdr->warning_high); 1243 } 1244 if (pdr->range_field_support.bits.bit1) 1245 { 1246 output["warningLow"] = int(pdr->warning_low); 1247 } 1248 if (pdr->range_field_support.bits.bit2) 1249 { 1250 output["criticalHigh"] = int(pdr->critical_high); 1251 } 1252 if (pdr->range_field_support.bits.bit3) 1253 { 1254 output["criticalLow"] = int(pdr->critical_low); 1255 } 1256 if (pdr->range_field_support.bits.bit4) 1257 { 1258 output["fatalHigh"] = int(pdr->fatal_high); 1259 } 1260 if (pdr->range_field_support.bits.bit5) 1261 { 1262 output["fatalLow"] = int(pdr->fatal_low); 1263 } 1264 } 1265 1266 void printPDRMsg(uint32_t& nextRecordHndl, const uint16_t respCnt, 1267 uint8_t* data, std::optional<uint16_t> terminusHandle) 1268 { 1269 if (data == NULL) 1270 { 1271 std::cerr << "Failed to get PDR message" << std::endl; 1272 return; 1273 } 1274 1275 ordered_json output; 1276 output["nextRecordHandle"] = nextRecordHndl; 1277 output["responseCount"] = respCnt; 1278 1279 struct pldm_pdr_hdr* pdr = (struct pldm_pdr_hdr*)data; 1280 if (!pdr) 1281 { 1282 return; 1283 } 1284 1285 if (!pdrRecType.empty()) 1286 { 1287 // Need to return if the requested PDR type 1288 // is not supported 1289 if (!strToPdrType.contains(pdrRecType)) 1290 { 1291 std::cerr << "PDR type '" << pdrRecType 1292 << "' is not supported or invalid\n"; 1293 // PDR type not supported, setting next record handle to 1294 // 0 to avoid looping through all PDR records 1295 nextRecordHndl = 0; 1296 return; 1297 } 1298 1299 // Do not print PDR record if the current record 1300 // PDR type does not match with requested type 1301 if (pdr->type != strToPdrType.at(pdrRecType)) 1302 { 1303 return; 1304 } 1305 } 1306 1307 if (pdrTerminus.has_value()) 1308 { 1309 if (checkTerminusHandle(data, terminusHandle)) 1310 { 1311 std::cerr << "The Terminus handle doesn't match return" 1312 << std::endl; 1313 return; 1314 } 1315 } 1316 1317 printCommonPDRHeader(pdr, output); 1318 1319 switch (pdr->type) 1320 { 1321 case PLDM_TERMINUS_LOCATOR_PDR: 1322 printTerminusLocatorPDR(data, output); 1323 break; 1324 case PLDM_STATE_SENSOR_PDR: 1325 printStateSensorPDR(data, output); 1326 break; 1327 case PLDM_NUMERIC_EFFECTER_PDR: 1328 printNumericEffecterPDR(data, output); 1329 break; 1330 case PLDM_SENSOR_AUXILIARY_NAMES_PDR: 1331 printAuxNamePDR(data, output); 1332 break; 1333 case PLDM_EFFECTER_AUXILIARY_NAMES_PDR: 1334 printAuxNamePDR(data, output); 1335 break; 1336 case PLDM_STATE_EFFECTER_PDR: 1337 printStateEffecterPDR(data, output); 1338 break; 1339 case PLDM_PDR_ENTITY_ASSOCIATION: 1340 printPDREntityAssociation(data, output); 1341 break; 1342 case PLDM_PDR_FRU_RECORD_SET: 1343 printPDRFruRecordSet(data, output); 1344 break; 1345 case PLDM_COMPACT_NUMERIC_SENSOR_PDR: 1346 printCompactNumericSensorPDR(data, output); 1347 break; 1348 default: 1349 break; 1350 } 1351 pldmtool::helper::DisplayInJson(output); 1352 } 1353 1354 private: 1355 bool optTIDSet = false; 1356 uint32_t recordHandle; 1357 bool allPDRs; 1358 std::string pdrRecType; 1359 std::optional<uint8_t> pdrTerminus; 1360 std::optional<uint16_t> terminusHandle; 1361 bool handleFound = false; 1362 CLI::Option* getPDRGroupOption = nullptr; 1363 }; 1364 1365 class SetStateEffecter : public CommandInterface 1366 { 1367 public: 1368 ~SetStateEffecter() = default; 1369 SetStateEffecter() = delete; 1370 SetStateEffecter(const SetStateEffecter&) = delete; 1371 SetStateEffecter(SetStateEffecter&&) = default; 1372 SetStateEffecter& operator=(const SetStateEffecter&) = delete; 1373 SetStateEffecter& operator=(SetStateEffecter&&) = delete; 1374 1375 // compositeEffecterCount(value: 0x01 to 0x08) * stateField(2) 1376 static constexpr auto maxEffecterDataSize = 16; 1377 1378 // compositeEffecterCount(value: 0x01 to 0x08) 1379 static constexpr auto minEffecterCount = 1; 1380 static constexpr auto maxEffecterCount = 8; 1381 explicit SetStateEffecter(const char* type, const char* name, 1382 CLI::App* app) : 1383 CommandInterface(type, name, app) 1384 { 1385 app->add_option( 1386 "-i, --id", effecterId, 1387 "A handle that is used to identify and access the effecter") 1388 ->required(); 1389 app->add_option("-c, --count", effecterCount, 1390 "The number of individual sets of effecter information") 1391 ->required(); 1392 app->add_option( 1393 "-d,--data", effecterData, 1394 "Set effecter state data\n" 1395 "eg: requestSet0 effecterState0 noChange1 dummyState1 ...") 1396 ->required(); 1397 } 1398 1399 std::pair<int, std::vector<uint8_t>> createRequestMsg() override 1400 { 1401 std::vector<uint8_t> requestMsg( 1402 sizeof(pldm_msg_hdr) + PLDM_SET_STATE_EFFECTER_STATES_REQ_BYTES); 1403 auto request = reinterpret_cast<pldm_msg*>(requestMsg.data()); 1404 1405 if (effecterCount > maxEffecterCount || 1406 effecterCount < minEffecterCount) 1407 { 1408 std::cerr << "Request Message Error: effecterCount size " 1409 << effecterCount << "is invalid\n"; 1410 auto rc = PLDM_ERROR_INVALID_DATA; 1411 return {rc, requestMsg}; 1412 } 1413 1414 if (effecterData.size() > maxEffecterDataSize) 1415 { 1416 std::cerr << "Request Message Error: effecterData size " 1417 << effecterData.size() << "is invalid\n"; 1418 auto rc = PLDM_ERROR_INVALID_DATA; 1419 return {rc, requestMsg}; 1420 } 1421 1422 auto stateField = parseEffecterData(effecterData, effecterCount); 1423 if (!stateField) 1424 { 1425 std::cerr << "Failed to parse effecter data, effecterCount size " 1426 << effecterCount << "\n"; 1427 auto rc = PLDM_ERROR_INVALID_DATA; 1428 return {rc, requestMsg}; 1429 } 1430 1431 auto rc = encode_set_state_effecter_states_req( 1432 instanceId, effecterId, effecterCount, stateField->data(), request); 1433 return {rc, requestMsg}; 1434 } 1435 1436 void parseResponseMsg(pldm_msg* responsePtr, size_t payloadLength) override 1437 { 1438 uint8_t completionCode = 0; 1439 auto rc = decode_set_state_effecter_states_resp( 1440 responsePtr, payloadLength, &completionCode); 1441 1442 if (rc != PLDM_SUCCESS || completionCode != PLDM_SUCCESS) 1443 { 1444 std::cerr << "Response Message Error: " 1445 << "rc=" << rc << ",cc=" << (int)completionCode << "\n"; 1446 return; 1447 } 1448 1449 ordered_json data; 1450 data["Response"] = "SUCCESS"; 1451 pldmtool::helper::DisplayInJson(data); 1452 } 1453 1454 private: 1455 uint16_t effecterId; 1456 uint8_t effecterCount; 1457 std::vector<uint8_t> effecterData; 1458 }; 1459 1460 class SetNumericEffecterValue : public CommandInterface 1461 { 1462 public: 1463 ~SetNumericEffecterValue() = default; 1464 SetNumericEffecterValue() = delete; 1465 SetNumericEffecterValue(const SetNumericEffecterValue&) = delete; 1466 SetNumericEffecterValue(SetNumericEffecterValue&&) = default; 1467 SetNumericEffecterValue& operator=(const SetNumericEffecterValue&) = delete; 1468 SetNumericEffecterValue& operator=(SetNumericEffecterValue&&) = delete; 1469 1470 explicit SetNumericEffecterValue(const char* type, const char* name, 1471 CLI::App* app) : 1472 CommandInterface(type, name, app) 1473 { 1474 app->add_option( 1475 "-i, --id", effecterId, 1476 "A handle that is used to identify and access the effecter") 1477 ->required(); 1478 app->add_option("-s, --size", effecterDataSize, 1479 "The bit width and format of the setting value for the " 1480 "effecter. enum value: {uint8, sint8, uint16, sint16, " 1481 "uint32, sint32}\n") 1482 ->required(); 1483 app->add_option("-d,--data", maxEffecterValue, 1484 "The setting value of numeric effecter being " 1485 "requested\n") 1486 ->required(); 1487 } 1488 1489 std::pair<int, std::vector<uint8_t>> createRequestMsg() override 1490 { 1491 std::vector<uint8_t> requestMsg( 1492 sizeof(pldm_msg_hdr) + 1493 PLDM_SET_NUMERIC_EFFECTER_VALUE_MIN_REQ_BYTES + 3); 1494 1495 uint8_t* effecterValue = (uint8_t*)&maxEffecterValue; 1496 1497 auto request = reinterpret_cast<pldm_msg*>(requestMsg.data()); 1498 size_t payload_length = PLDM_SET_NUMERIC_EFFECTER_VALUE_MIN_REQ_BYTES; 1499 1500 if (effecterDataSize == PLDM_EFFECTER_DATA_SIZE_UINT16 || 1501 effecterDataSize == PLDM_EFFECTER_DATA_SIZE_SINT16) 1502 { 1503 payload_length = PLDM_SET_NUMERIC_EFFECTER_VALUE_MIN_REQ_BYTES + 1; 1504 } 1505 if (effecterDataSize == PLDM_EFFECTER_DATA_SIZE_UINT32 || 1506 effecterDataSize == PLDM_EFFECTER_DATA_SIZE_SINT32) 1507 { 1508 payload_length = PLDM_SET_NUMERIC_EFFECTER_VALUE_MIN_REQ_BYTES + 3; 1509 } 1510 auto rc = encode_set_numeric_effecter_value_req( 1511 0, effecterId, effecterDataSize, effecterValue, request, 1512 payload_length); 1513 1514 return {rc, requestMsg}; 1515 } 1516 1517 void parseResponseMsg(pldm_msg* responsePtr, size_t payloadLength) override 1518 { 1519 uint8_t completionCode = 0; 1520 auto rc = decode_set_numeric_effecter_value_resp( 1521 responsePtr, payloadLength, &completionCode); 1522 1523 if (rc != PLDM_SUCCESS || completionCode != PLDM_SUCCESS) 1524 { 1525 std::cerr << "Response Message Error: " 1526 << "rc=" << rc << ",cc=" << (int)completionCode 1527 << std::endl; 1528 return; 1529 } 1530 1531 ordered_json data; 1532 data["Response"] = "SUCCESS"; 1533 pldmtool::helper::DisplayInJson(data); 1534 } 1535 1536 private: 1537 uint16_t effecterId; 1538 uint8_t effecterDataSize; 1539 uint64_t maxEffecterValue; 1540 }; 1541 1542 class GetStateSensorReadings : public CommandInterface 1543 { 1544 public: 1545 ~GetStateSensorReadings() = default; 1546 GetStateSensorReadings() = delete; 1547 GetStateSensorReadings(const GetStateSensorReadings&) = delete; 1548 GetStateSensorReadings(GetStateSensorReadings&&) = default; 1549 GetStateSensorReadings& operator=(const GetStateSensorReadings&) = delete; 1550 GetStateSensorReadings& operator=(GetStateSensorReadings&&) = delete; 1551 1552 explicit GetStateSensorReadings(const char* type, const char* name, 1553 CLI::App* app) : 1554 CommandInterface(type, name, app) 1555 { 1556 app->add_option( 1557 "-i, --sensor_id", sensorId, 1558 "Sensor ID that is used to identify and access the sensor") 1559 ->required(); 1560 app->add_option("-r, --rearm", sensorRearm, 1561 "Each bit location in this field corresponds to a " 1562 "particular sensor") 1563 ->required(); 1564 } 1565 1566 std::pair<int, std::vector<uint8_t>> createRequestMsg() override 1567 { 1568 std::vector<uint8_t> requestMsg( 1569 sizeof(pldm_msg_hdr) + PLDM_GET_STATE_SENSOR_READINGS_REQ_BYTES); 1570 auto request = reinterpret_cast<pldm_msg*>(requestMsg.data()); 1571 1572 uint8_t reserved = 0; 1573 bitfield8_t bf; 1574 bf.byte = sensorRearm; 1575 auto rc = encode_get_state_sensor_readings_req(instanceId, sensorId, bf, 1576 reserved, request); 1577 1578 return {rc, requestMsg}; 1579 } 1580 1581 void parseResponseMsg(pldm_msg* responsePtr, size_t payloadLength) override 1582 { 1583 uint8_t completionCode = 0; 1584 uint8_t compSensorCount = 0; 1585 std::array<get_sensor_state_field, 8> stateField{}; 1586 auto rc = decode_get_state_sensor_readings_resp( 1587 responsePtr, payloadLength, &completionCode, &compSensorCount, 1588 stateField.data()); 1589 1590 if (rc != PLDM_SUCCESS || completionCode != PLDM_SUCCESS) 1591 { 1592 std::cerr << "Response Message Error: " 1593 << "rc=" << rc << ",cc=" << (int)completionCode 1594 << std::endl; 1595 return; 1596 } 1597 ordered_json output; 1598 output["compositeSensorCount"] = (int)compSensorCount; 1599 1600 for (size_t i = 0; i < compSensorCount; i++) 1601 { 1602 if (sensorOpState.contains(stateField[i].sensor_op_state)) 1603 { 1604 output.emplace(("sensorOpState[" + std::to_string(i) + "]"), 1605 sensorOpState.at(stateField[i].sensor_op_state)); 1606 } 1607 1608 if (sensorPresState.contains(stateField[i].present_state)) 1609 { 1610 output.emplace(("presentState[" + std::to_string(i) + "]"), 1611 sensorPresState.at(stateField[i].present_state)); 1612 } 1613 1614 if (sensorPresState.contains(stateField[i].previous_state)) 1615 { 1616 output.emplace( 1617 ("previousState[" + std::to_string(i) + "]"), 1618 sensorPresState.at(stateField[i].previous_state)); 1619 } 1620 1621 if (sensorPresState.contains(stateField[i].event_state)) 1622 { 1623 output.emplace(("eventState[" + std::to_string(i) + "]"), 1624 sensorPresState.at(stateField[i].event_state)); 1625 } 1626 } 1627 1628 pldmtool::helper::DisplayInJson(output); 1629 } 1630 1631 private: 1632 uint16_t sensorId; 1633 uint8_t sensorRearm; 1634 }; 1635 1636 void registerCommand(CLI::App& app) 1637 { 1638 auto platform = app.add_subcommand("platform", "platform type command"); 1639 platform->require_subcommand(1); 1640 1641 auto getPDR = platform->add_subcommand("GetPDR", 1642 "get platform descriptor records"); 1643 commands.push_back(std::make_unique<GetPDR>("platform", "getPDR", getPDR)); 1644 1645 auto setStateEffecterStates = platform->add_subcommand( 1646 "SetStateEffecterStates", "set effecter states"); 1647 commands.push_back(std::make_unique<SetStateEffecter>( 1648 "platform", "setStateEffecterStates", setStateEffecterStates)); 1649 1650 auto setNumericEffecterValue = platform->add_subcommand( 1651 "SetNumericEffecterValue", "set the value for a PLDM Numeric Effecter"); 1652 commands.push_back(std::make_unique<SetNumericEffecterValue>( 1653 "platform", "setNumericEffecterValue", setNumericEffecterValue)); 1654 1655 auto getStateSensorReadings = platform->add_subcommand( 1656 "GetStateSensorReadings", "get the state sensor readings"); 1657 commands.push_back(std::make_unique<GetStateSensorReadings>( 1658 "platform", "getStateSensorReadings", getStateSensorReadings)); 1659 } 1660 1661 void parseGetPDROption() 1662 { 1663 for (const auto& command : commands) 1664 { 1665 if (command.get()->getPLDMType() == "platform" && 1666 command.get()->getCommandName() == "getPDR") 1667 { 1668 auto getPDR = dynamic_cast<GetPDR*>(command.get()); 1669 getPDR->parseGetPDROptions(); 1670 } 1671 } 1672 } 1673 1674 } // namespace platform 1675 } // namespace pldmtool 1676