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gerrit.openbmc.org / openbmc / pldm / 27c512aeb0f2a758e4484a0874dd575cfdfe60db / . / pldmtool / pldm_platform_cmd.cpp
blob: 9bd0ccb9b887d46673957cd04f078a897d7c7b09 [file] [log] [blame]
#include "libpldm/entity.h"
#include "libpldm/state_set.h"
#include "common/types.hpp"
#include "pldm_cmd_helper.hpp"
namespace pldmtool
{
namespace platform
{
namespace
{
using namespace pldmtool::helper;
std::vector<std::unique_ptr<CommandInterface>> commands;
} // namespace
using ordered_json = nlohmann::ordered_json;
class GetPDR : public CommandInterface
{
public:
~GetPDR() = default;
GetPDR() = delete;
GetPDR(const GetPDR&) = delete;
GetPDR(GetPDR&&) = default;
GetPDR& operator=(const GetPDR&) = delete;
GetPDR& operator=(GetPDR&&) = default;
using CommandInterface::CommandInterface;
explicit GetPDR(const char* type, const char* name, CLI::App* app) :
CommandInterface(type, name, app)
{
app->add_option(
"-d,--data", recordHandle,
"retrieve individual PDRs from a PDR Repository\n"
"eg: The recordHandle value for the PDR to be retrieved and 0 "
"means get first PDR in the repository.")
->required();
}
std::pair<int, std::vector<uint8_t>> createRequestMsg() override
{
std::vector<uint8_t> requestMsg(sizeof(pldm_msg_hdr) +
PLDM_GET_PDR_REQ_BYTES);
auto request = reinterpret_cast<pldm_msg*>(requestMsg.data());
auto rc =
encode_get_pdr_req(instanceId, recordHandle, 0, PLDM_GET_FIRSTPART,
UINT16_MAX, 0, request, PLDM_GET_PDR_REQ_BYTES);
return {rc, requestMsg};
}
void parseResponseMsg(pldm_msg* responsePtr, size_t payloadLength) override
{
uint8_t completionCode = 0;
uint8_t recordData[UINT16_MAX] = {0};
uint32_t nextRecordHndl = 0;
uint32_t nextDataTransferHndl = 0;
uint8_t transferFlag = 0;
uint16_t respCnt = 0;
uint8_t transferCRC = 0;
auto rc = decode_get_pdr_resp(
responsePtr, payloadLength, &completionCode, &nextRecordHndl,
&nextDataTransferHndl, &transferFlag, &respCnt, recordData,
sizeof(recordData), &transferCRC);
if (rc != PLDM_SUCCESS || completionCode != PLDM_SUCCESS)
{
std::cerr << "Response Message Error: "
<< "rc=" << rc << ",cc=" << (int)completionCode
<< std::endl;
return;
}
printPDRMsg(nextRecordHndl, respCnt, recordData);
}
private:
const std::map<pldm::pdr::EntityType, std::string> entityType = {
{PLDM_ENTITY_COMM_CHANNEL, "Communication Channel"},
{PLDM_ENTITY_SYS_FIRMWARE, "System Firmware"},
{PLDM_ENTITY_VIRTUAL_MACHINE_MANAGER, "Virtual Machine Manager"},
{PLDM_ENTITY_SYSTEM_CHASSIS, "System chassis (main enclosure)"},
{PLDM_ENTITY_SYS_BOARD, "System Board"},
{PLDM_ENTITY_MEMORY_MODULE, "Memory Module"},
{PLDM_ENTITY_PROC_MODULE, "Processor Module"},
{PLDM_ENTITY_CHASSIS_FRONT_PANEL_BOARD,
"Chassis front panel board (control panel)"},
{PLDM_ENTITY_POWER_CONVERTER, "Power converter"},
{PLDM_ENTITY_PROC, "Processor"},
{PLDM_ENTITY_MGMT_CONTROLLER, "Management Controller"},
{PLDM_ENTITY_CONNECTOR, "Connector"},
{PLDM_ENTITY_POWER_SUPPLY, "Power Supply"},
{11521, "System (logical)"},
};
const std::map<uint16_t, std::string> stateSet = {
{PLDM_STATE_SET_HEALTH_STATE, "Health State"},
{PLDM_STATE_SET_AVAILABILITY, "Availability"},
{PLDM_STATE_SET_OPERATIONAL_STATUS, "Operational Status"},
{PLDM_STATE_SET_OPERATIONAL_RUNNING_STATUS,
"Operational Running Status"},
{PLDM_STATE_SET_PRESENCE, "Presence"},
{PLDM_STATE_SET_CONFIGURATION_STATE, "Configuration State"},
{PLDM_STATE_SET_LINK_STATE, "Link State"},
{PLDM_STATE_SET_SW_TERMINATION_STATUS, "Software Termination Status"},
{PLDM_STATE_SET_BOOT_RESTART_CAUSE, "Boot/Restart Cause"},
{PLDM_STATE_SET_BOOT_PROGRESS, "Boot Progress"},
{PLDM_STATE_SET_SYSTEM_POWER_STATE, "System Power State"},
};
const std::array<std::string_view, 4> sensorInit = {
"noInit", "useInitPDR", "enableSensor", "disableSensor"};
const std::array<std::string_view, 4> effecterInit = {
"noInit", "useInitPDR", "enableEffecter", "disableEffecter"};
const std::map<uint8_t, std::string> pdrType = {
{PLDM_TERMINUS_LOCATOR_PDR, "Terminus Locator PDR"},
{PLDM_NUMERIC_SENSOR_PDR, "Numeric Sensor PDR"},
{PLDM_NUMERIC_SENSOR_INITIALIZATION_PDR,
"Numeric Sensor Initialization PDR"},
{PLDM_STATE_SENSOR_PDR, "State Sensor PDR"},
{PLDM_STATE_SENSOR_INITIALIZATION_PDR,
"State Sensor Initialization PDR"},
{PLDM_SENSOR_AUXILIARY_NAMES_PDR, "Sensor Auxiliary Names PDR"},
{PLDM_OEM_UNIT_PDR, "OEM Unit PDR"},
{PLDM_OEM_STATE_SET_PDR, "OEM State Set PDR"},
{PLDM_NUMERIC_EFFECTER_PDR, "Numeric Effecter PDR"},
{PLDM_NUMERIC_EFFECTER_INITIALIZATION_PDR,
"Numeric Effecter Initialization PDR"},
{PLDM_STATE_EFFECTER_PDR, "State Effecter PDR"},
{PLDM_STATE_EFFECTER_INITIALIZATION_PDR,
"State Effecter Initialization PDR"},
{PLDM_EFFECTER_AUXILIARY_NAMES_PDR, "Effecter Auxiliary Names PDR"},
{PLDM_EFFECTER_OEM_SEMANTIC_PDR, "Effecter OEM Semantic PDR"},
{PLDM_PDR_ENTITY_ASSOCIATION, "Entity Association PDR"},
{PLDM_ENTITY_AUXILIARY_NAMES_PDR, "Entity Auxiliary Names PDR"},
{PLDM_OEM_ENTITY_ID_PDR, "OEM Entity ID PDR"},
{PLDM_INTERRUPT_ASSOCIATION_PDR, "Interrupt Association PDR"},
{PLDM_EVENT_LOG_PDR, "PLDM Event Log PDR"},
{PLDM_PDR_FRU_RECORD_SET, "FRU Record Set PDR"},
{PLDM_OEM_DEVICE_PDR, "OEM Device PDR"},
{PLDM_OEM_PDR, "OEM PDR"},
};
std::string getEntityName(pldm::pdr::EntityType type)
{
try
{
return entityType.at(type);
}
catch (const std::out_of_range& e)
{
return std::to_string(static_cast<unsigned>(type)) + "(OEM)";
}
}
std::string getStateSetName(uint16_t id)
{
auto typeString = std::to_string(id);
try
{
return stateSet.at(id) + "(" + typeString + ")";
}
catch (const std::out_of_range& e)
{
return typeString;
}
}
std::string getPDRType(uint8_t type)
{
auto typeString = std::to_string(type);
try
{
return pdrType.at(type);
}
catch (const std::out_of_range& e)
{
return typeString;
}
}
void printCommonPDRHeader(const pldm_pdr_hdr* hdr, ordered_json& output)
{
output["recordHandle"] = hdr->record_handle;
output["PDRHeaderVersion"] = unsigned(hdr->version);
output["PDRType"] = getPDRType(hdr->type);
output["recordChangeNumber"] = hdr->record_change_num;
output["dataLength"] = hdr->length;
}
std::string printPossibleStates(uint8_t possibleStatesSize,
const bitfield8_t* states)
{
uint8_t possibleStatesPos{};
std::string data;
auto printStates = [&possibleStatesPos, &data](const bitfield8_t& val) {
std::stringstream pstates;
for (int i = 0; i < CHAR_BIT; i++)
{
if (val.byte & (1 << i))
{
pstates << " " << (possibleStatesPos * CHAR_BIT + i);
data.append(pstates.str());
}
}
possibleStatesPos++;
};
std::for_each(states, states + possibleStatesSize, printStates);
return data;
}
void printStateSensorPDR(const uint8_t* data, ordered_json& output)
{
auto pdr = reinterpret_cast<const pldm_state_sensor_pdr*>(data);
output["PLDMTerminusHandle"] = pdr->terminus_handle;
output["sensorID"] = pdr->sensor_id;
output["entityType"] = getEntityName(pdr->entity_type);
output["entityInstanceNumber"] = pdr->entity_instance;
output["containerID"] = pdr->container_id;
output["sensorInit"] = sensorInit[pdr->sensor_init];
output["sensorAuxiliaryNamesPDR"] =
(pdr->sensor_auxiliary_names_pdr ? true : false);
output["compositeSensorCount"] = unsigned(pdr->composite_sensor_count);
auto statesPtr = pdr->possible_states;
auto compositeSensorCount = pdr->composite_sensor_count;
while (compositeSensorCount--)
{
auto state = reinterpret_cast<const state_sensor_possible_states*>(
statesPtr);
output["stateSetID"] = getStateSetName(state->state_set_id);
output["possibleStatesSize"] = getStateSetName(state->state_set_id);
output["possibleStates"] =
printPossibleStates(state->possible_states_size, state->states);
if (compositeSensorCount)
{
statesPtr += sizeof(state_sensor_possible_states) +
state->possible_states_size - 1;
}
}
}
void printPDRFruRecordSet(uint8_t* data, ordered_json& output)
{
if (data == NULL)
{
return;
}
data += sizeof(pldm_pdr_hdr);
pldm_pdr_fru_record_set* pdr =
reinterpret_cast<pldm_pdr_fru_record_set*>(data);
output["PLDMTerminusHandle"] = unsigned(pdr->terminus_handle);
output["FRURecordSetIdentifier"] = unsigned(pdr->fru_rsi);
output["entityType"] = getEntityName(pdr->entity_type);
output["entityInstanceNumber"] = unsigned(pdr->entity_instance_num);
output["containerID"] = unsigned(pdr->container_id);
}
void printPDREntityAssociation(uint8_t* data, ordered_json& output)
{
const std::map<uint8_t, const char*> assocationType = {
{PLDM_ENTITY_ASSOCIAION_PHYSICAL, "Physical"},
{PLDM_ENTITY_ASSOCIAION_LOGICAL, "Logical"},
};
if (data == NULL)
{
return;
}
data += sizeof(pldm_pdr_hdr);
pldm_pdr_entity_association* pdr =
reinterpret_cast<pldm_pdr_entity_association*>(data);
output["containerID"] = int(pdr->container_id);
output["associationType"] = assocationType.at(pdr->association_type);
output["containerEntityType"] =
getEntityName(pdr->container.entity_type);
output["containerEntityInstanceNumber"] =
int(pdr->container.entity_instance_num);
output["containerEntityContainerID"] =
int(pdr->container.entity_container_id);
output["containedEntityCount"] =
static_cast<unsigned>(pdr->num_children);
auto child = reinterpret_cast<pldm_entity*>(&pdr->children[0]);
for (int i = 0; i < pdr->num_children; ++i)
{
output.emplace("containedEntityType[" + std::to_string(i + 1) + "]",
getEntityName(child->entity_type));
output.emplace("containedEntityInstanceNumber[" +
std::to_string(i + 1) + "]",
unsigned(child->entity_instance_num));
output.emplace("containedEntityContainerID[" +
std::to_string(i + 1) + "]",
unsigned(child->entity_container_id));
++child;
}
}
void printNumericEffecterPDR(uint8_t* data, ordered_json& output)
{
struct pldm_numeric_effecter_value_pdr* pdr =
(struct pldm_numeric_effecter_value_pdr*)data;
output["PLDMTerminusHandle"] = int(pdr->terminus_handle);
output["effecterID"] = int(pdr->effecter_id);
output["entityType"] = int(pdr->entity_type);
output["entityInstanceNumber"] = int(pdr->entity_instance);
output["containerID"] = int(pdr->container_id);
output["effecterSemanticID"] = int(pdr->effecter_semantic_id);
output["effecterInit"] = unsigned(pdr->effecter_init);
output["effecterAuxiliaryNames"] =
(unsigned(pdr->effecter_auxiliary_names) ? true : false);
output["baseUnit"] = unsigned(pdr->base_unit);
output["unitModifier"] = unsigned(pdr->unit_modifier);
output["rateUnit"] = unsigned(pdr->rate_unit);
output["baseOEMUnitHandle"] = unsigned(pdr->base_oem_unit_handle);
output["auxUnit"] = unsigned(pdr->aux_unit);
output["auxUnitModifier"] = unsigned(pdr->aux_unit_modifier);
output["auxrateUnit"] = unsigned(pdr->aux_rate_unit);
output["auxOEMUnitHandle"] = unsigned(pdr->aux_oem_unit_handle);
output["isLinear"] = (unsigned(pdr->is_linear) ? true : false);
output["effecterDataSize"] = unsigned(pdr->effecter_data_size);
output["resolution"] = unsigned(pdr->resolution);
output["offset"] = unsigned(pdr->offset);
output["accuracy"] = unsigned(pdr->accuracy);
output["plusTolerance"] = unsigned(pdr->plus_tolerance);
output["minusTolerance"] = unsigned(pdr->minus_tolerance);
output["stateTransitionInterval"] =
unsigned(pdr->state_transition_interval);
output["TransitionInterval"] = unsigned(pdr->transition_interval);
switch (pdr->effecter_data_size)
{
case PLDM_EFFECTER_DATA_SIZE_UINT8:
output["maxSettable"] = unsigned(pdr->max_set_table.value_u8);
output["minSettable"] = unsigned(pdr->min_set_table.value_u8);
break;
case PLDM_EFFECTER_DATA_SIZE_SINT8:
output["maxSettable"] = unsigned(pdr->max_set_table.value_s8);
output["minSettable"] = unsigned(pdr->min_set_table.value_s8);
break;
case PLDM_EFFECTER_DATA_SIZE_UINT16:
output["maxSettable"] = unsigned(pdr->max_set_table.value_u16);
output["minSettable"] = unsigned(pdr->min_set_table.value_u16);
break;
case PLDM_EFFECTER_DATA_SIZE_SINT16:
output["maxSettable"] = unsigned(pdr->max_set_table.value_s16);
output["minSettable"] = unsigned(pdr->min_set_table.value_s16);
break;
case PLDM_EFFECTER_DATA_SIZE_UINT32:
output["maxSettable"] = unsigned(pdr->max_set_table.value_u32);
output["minSettable"] = unsigned(pdr->min_set_table.value_u32);
break;
case PLDM_EFFECTER_DATA_SIZE_SINT32:
output["maxSettable"] = unsigned(pdr->max_set_table.value_s32);
output["minSettable"] = unsigned(pdr->min_set_table.value_s32);
break;
default:
break;
}
output["rangeFieldFormat"] = unsigned(pdr->range_field_format);
output["rangeFieldSupport"] = unsigned(pdr->range_field_support.byte);
switch (pdr->range_field_format)
{
case PLDM_RANGE_FIELD_FORMAT_UINT8:
output["nominalValue"] = unsigned(pdr->nominal_value.value_u8);
output["normalMax"] = unsigned(pdr->normal_max.value_u8);
output["normalMin"] = unsigned(pdr->normal_min.value_u8);
output["ratedMax"] = unsigned(pdr->rated_max.value_u8);
output["ratedMin"] = unsigned(pdr->rated_min.value_u8);
break;
case PLDM_RANGE_FIELD_FORMAT_SINT8:
output["nominalValue"] = unsigned(pdr->nominal_value.value_s8);
output["normalMax"] = unsigned(pdr->normal_max.value_s8);
output["normalMin"] = unsigned(pdr->normal_min.value_s8);
output["ratedMax"] = unsigned(pdr->rated_max.value_s8);
output["ratedMin"] = unsigned(pdr->rated_min.value_s8);
break;
case PLDM_RANGE_FIELD_FORMAT_UINT16:
output["nominalValue"] = unsigned(pdr->nominal_value.value_u16);
output["normalMax"] = unsigned(pdr->normal_max.value_u16);
output["normalMin"] = unsigned(pdr->normal_min.value_u16);
output["ratedMax"] = unsigned(pdr->rated_max.value_u16);
output["ratedMin"] = unsigned(pdr->rated_min.value_u16);
break;
case PLDM_RANGE_FIELD_FORMAT_SINT16:
output["nominalValue"] = unsigned(pdr->nominal_value.value_s16);
output["normalMax"] = unsigned(pdr->normal_max.value_s16);
output["normalMin"] = unsigned(pdr->normal_min.value_s16);
output["ratedMax"] = unsigned(pdr->rated_max.value_s16);
output["ratedMin"] = unsigned(pdr->rated_min.value_s16);
break;
case PLDM_RANGE_FIELD_FORMAT_UINT32:
output["nominalValue"] = unsigned(pdr->nominal_value.value_u32);
output["normalMax"] = unsigned(pdr->normal_max.value_u32);
output["normalMin"] = unsigned(pdr->normal_min.value_u32);
output["ratedMax"] = unsigned(pdr->rated_max.value_u32);
output["ratedMin"] = unsigned(pdr->rated_min.value_u32);
break;
case PLDM_RANGE_FIELD_FORMAT_SINT32:
output["nominalValue"] = unsigned(pdr->nominal_value.value_s32);
output["normalMax"] = unsigned(pdr->normal_max.value_s32);
output["normalMin"] = unsigned(pdr->normal_min.value_s32);
output["ratedMax"] = unsigned(pdr->rated_max.value_s32);
output["ratedMin"] = unsigned(pdr->rated_min.value_s32);
break;
case PLDM_RANGE_FIELD_FORMAT_REAL32:
output["nominalValue"] = unsigned(pdr->nominal_value.value_f32);
output["normalMax"] = unsigned(pdr->normal_max.value_f32);
output["normalMin"] = unsigned(pdr->normal_min.value_f32);
output["ratedMax"] = unsigned(pdr->rated_max.value_f32);
output["ratedMin"] = unsigned(pdr->rated_min.value_f32);
break;
default:
break;
}
}
void printStateEffecterPDR(const uint8_t* data, ordered_json& output)
{
auto pdr = reinterpret_cast<const pldm_state_effecter_pdr*>(data);
output["PLDMTerminusHandle"] = pdr->terminus_handle;
output["effecterID"] = pdr->effecter_id;
output["entityType"] = getEntityName(pdr->entity_type);
output["entityInstanceNumber"] = pdr->entity_instance;
output["containerID"] = pdr->container_id;
output["effecterSemanticID"] = pdr->effecter_semantic_id;
output["effecterInit"] = effecterInit[pdr->effecter_init];
output["effecterDescriptionPDR"] =
(pdr->has_description_pdr ? true : false);
output["compositeEffecterCount"] =
unsigned(pdr->composite_effecter_count);
auto statesPtr = pdr->possible_states;
auto compositeEffecterCount = pdr->composite_effecter_count;
while (compositeEffecterCount--)
{
auto state =
reinterpret_cast<const state_effecter_possible_states*>(
statesPtr);
output["stateSetID"] = getStateSetName(state->state_set_id);
output["possibleStatesSize"] = (state->possible_states_size);
output["possibleStates"] =
printPossibleStates(state->possible_states_size, state->states);
if (compositeEffecterCount)
{
statesPtr += sizeof(state_effecter_possible_states) +
state->possible_states_size - 1;
}
}
}
void printTerminusLocatorPDR(const uint8_t* data, ordered_json& output)
{
const std::array<std::string_view, 4> terminusLocatorType = {
"UID", "MCTP_EID", "SMBusRelative", "systemSoftware"};
auto pdr = reinterpret_cast<const pldm_terminus_locator_pdr*>(data);
output["PLDMTerminusHandle"] = pdr->terminus_handle;
output["validity"] = (pdr->validity ? "valid" : "notValid");
output["TID"] = unsigned(pdr->tid);
output["containerID"] = pdr->container_id;
output["terminusLocatorType"] =
terminusLocatorType[pdr->terminus_locator_type];
output["terminusLocatorValueSize"] =
unsigned(pdr->terminus_locator_value_size);
if (pdr->terminus_locator_type == PLDM_TERMINUS_LOCATOR_TYPE_MCTP_EID)
{
auto locatorValue =
reinterpret_cast<const pldm_terminus_locator_type_mctp_eid*>(
pdr->terminus_locator_value);
output["EID"] = unsigned(locatorValue->eid);
}
}
void printPDRMsg(const uint32_t nextRecordHndl, const uint16_t respCnt,
uint8_t* data)
{
if (data == NULL)
{
return;
}
ordered_json output;
output["nextRecordHandle"] = nextRecordHndl;
output["responseCount"] = respCnt;
struct pldm_pdr_hdr* pdr = (struct pldm_pdr_hdr*)data;
printCommonPDRHeader(pdr, output);
switch (pdr->type)
{
case PLDM_TERMINUS_LOCATOR_PDR:
printTerminusLocatorPDR(data, output);
break;
case PLDM_STATE_SENSOR_PDR:
printStateSensorPDR(data, output);
break;
case PLDM_NUMERIC_EFFECTER_PDR:
printNumericEffecterPDR(data, output);
break;
case PLDM_STATE_EFFECTER_PDR:
printStateEffecterPDR(data, output);
break;
case PLDM_PDR_ENTITY_ASSOCIATION:
printPDREntityAssociation(data, output);
break;
case PLDM_PDR_FRU_RECORD_SET:
printPDRFruRecordSet(data, output);
break;
default:
break;
}
pldmtool::helper::DisplayInJson(output);
}
private:
uint32_t recordHandle;
};
class SetStateEffecter : public CommandInterface
{
public:
~SetStateEffecter() = default;
SetStateEffecter() = delete;
SetStateEffecter(const SetStateEffecter&) = delete;
SetStateEffecter(SetStateEffecter&&) = default;
SetStateEffecter& operator=(const SetStateEffecter&) = delete;
SetStateEffecter& operator=(SetStateEffecter&&) = default;
// compositeEffecterCount(value: 0x01 to 0x08) * stateField(2)
static constexpr auto maxEffecterDataSize = 16;
// compositeEffecterCount(value: 0x01 to 0x08)
static constexpr auto minEffecterCount = 1;
static constexpr auto maxEffecterCount = 8;
explicit SetStateEffecter(const char* type, const char* name,
CLI::App* app) :
CommandInterface(type, name, app)
{
app->add_option(
"-i, --id", effecterId,
"A handle that is used to identify and access the effecter")
->required();
app->add_option("-c, --count", effecterCount,
"The number of individual sets of effecter information")
->required();
app->add_option(
"-d,--data", effecterData,
"Set effecter state data\n"
"eg: requestSet0 effecterState0 noChange1 dummyState1 ...")
->required();
}
std::pair<int, std::vector<uint8_t>> createRequestMsg() override
{
std::vector<uint8_t> requestMsg(
sizeof(pldm_msg_hdr) + PLDM_SET_STATE_EFFECTER_STATES_REQ_BYTES);
auto request = reinterpret_cast<pldm_msg*>(requestMsg.data());
if (effecterCount > maxEffecterCount ||
effecterCount < minEffecterCount)
{
std::cerr << "Request Message Error: effecterCount size "
<< effecterCount << "is invalid\n";
auto rc = PLDM_ERROR_INVALID_DATA;
return {rc, requestMsg};
}
if (effecterData.size() > maxEffecterDataSize)
{
std::cerr << "Request Message Error: effecterData size "
<< effecterData.size() << "is invalid\n";
auto rc = PLDM_ERROR_INVALID_DATA;
return {rc, requestMsg};
}
auto stateField = parseEffecterData(effecterData, effecterCount);
if (!stateField)
{
std::cerr << "Failed to parse effecter data, effecterCount size "
<< effecterCount << "\n";
auto rc = PLDM_ERROR_INVALID_DATA;
return {rc, requestMsg};
}
auto rc = encode_set_state_effecter_states_req(
instanceId, effecterId, effecterCount, stateField->data(), request);
return {rc, requestMsg};
}
void parseResponseMsg(pldm_msg* responsePtr, size_t payloadLength) override
{
uint8_t completionCode = 0;
auto rc = decode_set_state_effecter_states_resp(
responsePtr, payloadLength, &completionCode);
if (rc != PLDM_SUCCESS || completionCode != PLDM_SUCCESS)
{
std::cerr << "Response Message Error: "
<< "rc=" << rc << ",cc=" << (int)completionCode << "\n";
return;
}
ordered_json data;
data["Response"] = "SUCCESS";
pldmtool::helper::DisplayInJson(data);
}
private:
uint16_t effecterId;
uint8_t effecterCount;
std::vector<uint8_t> effecterData;
};
class SetNumericEffecterValue : public CommandInterface
{
public:
~SetNumericEffecterValue() = default;
SetNumericEffecterValue() = delete;
SetNumericEffecterValue(const SetNumericEffecterValue&) = delete;
SetNumericEffecterValue(SetNumericEffecterValue&&) = default;
SetNumericEffecterValue& operator=(const SetNumericEffecterValue&) = delete;
SetNumericEffecterValue& operator=(SetNumericEffecterValue&&) = default;
explicit SetNumericEffecterValue(const char* type, const char* name,
CLI::App* app) :
CommandInterface(type, name, app)
{
app->add_option(
"-i, --id", effecterId,
"A handle that is used to identify and access the effecter")
->required();
app->add_option("-s, --size", effecterDataSize,
"The bit width and format of the setting value for the "
"effecter. enum value: {uint8, sint8, uint16, sint16, "
"uint32, sint32}\n")
->required();
app->add_option("-d,--data", maxEffecterValue,
"The setting value of numeric effecter being "
"requested\n")
->required();
}
std::pair<int, std::vector<uint8_t>> createRequestMsg() override
{
std::vector<uint8_t> requestMsg(
sizeof(pldm_msg_hdr) +
PLDM_SET_NUMERIC_EFFECTER_VALUE_MIN_REQ_BYTES + 3);
uint8_t* effecterValue = (uint8_t*)&maxEffecterValue;
auto request = reinterpret_cast<pldm_msg*>(requestMsg.data());
size_t payload_length = PLDM_SET_NUMERIC_EFFECTER_VALUE_MIN_REQ_BYTES;
if (effecterDataSize == PLDM_EFFECTER_DATA_SIZE_UINT16 ||
effecterDataSize == PLDM_EFFECTER_DATA_SIZE_SINT16)
{
payload_length = PLDM_SET_NUMERIC_EFFECTER_VALUE_MIN_REQ_BYTES + 1;
}
if (effecterDataSize == PLDM_EFFECTER_DATA_SIZE_UINT32 ||
effecterDataSize == PLDM_EFFECTER_DATA_SIZE_SINT32)
{
payload_length = PLDM_SET_NUMERIC_EFFECTER_VALUE_MIN_REQ_BYTES + 3;
}
auto rc = encode_set_numeric_effecter_value_req(
0, effecterId, effecterDataSize, effecterValue, request,
payload_length);
return {rc, requestMsg};
}
void parseResponseMsg(pldm_msg* responsePtr, size_t payloadLength) override
{
uint8_t completionCode = 0;
auto rc = decode_set_numeric_effecter_value_resp(
responsePtr, payloadLength, &completionCode);
if (rc != PLDM_SUCCESS || completionCode != PLDM_SUCCESS)
{
std::cerr << "Response Message Error: "
<< "rc=" << rc << ",cc=" << (int)completionCode
<< std::endl;
return;
}
ordered_json data;
data["Response"] = "SUCCESS";
pldmtool::helper::DisplayInJson(data);
}
private:
uint16_t effecterId;
uint8_t effecterDataSize;
uint64_t maxEffecterValue;
};
void registerCommand(CLI::App& app)
{
auto platform = app.add_subcommand("platform", "platform type command");
platform->require_subcommand(1);
auto getPDR =
platform->add_subcommand("GetPDR", "get platform descriptor records");
commands.push_back(std::make_unique<GetPDR>("platform", "getPDR", getPDR));
auto setStateEffecterStates = platform->add_subcommand(
"SetStateEffecterStates", "set effecter states");
commands.push_back(std::make_unique<SetStateEffecter>(
"platform", "setStateEffecterStates", setStateEffecterStates));
auto setNumericEffecterValue = platform->add_subcommand(
"SetNumericEffecterValue", "set the value for a PLDM Numeric Effecter");
commands.push_back(std::make_unique<SetNumericEffecterValue>(
"platform", "setNumericEffecterValue", setNumericEffecterValue));
}
} // namespace platform
} // namespace pldmtool