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