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gerrit.openbmc.org / openbmc / pldm / d6b00561db5cdab7dbcec94ee123da6b6f77a07a / . / pldmtool / pldm_bios_cmd.cpp
blob: e1acf8477dcd343a0cb349fe810166eaeb81b0cf [file] [log] [blame]
#include "pldm_bios_cmd.hpp"
#include "common/bios_utils.hpp"
#include "common/utils.hpp"
#include "pldm_cmd_helper.hpp"
#include <libpldm/bios_table.h>
#include <libpldm/utils.h>
#include <map>
#include <optional>
namespace pldmtool
{
namespace bios
{
namespace
{
using namespace pldmtool::helper;
using namespace pldm::bios::utils;
using namespace pldm::utils;
std::vector<std::unique_ptr<CommandInterface>> commands;
const std::map<const char*, pldm_bios_table_types> pldmBIOSTableTypes{
{"StringTable", PLDM_BIOS_STRING_TABLE},
{"AttributeTable", PLDM_BIOS_ATTR_TABLE},
{"AttributeValueTable", PLDM_BIOS_ATTR_VAL_TABLE},
};
} // namespace
class GetDateTime : public CommandInterface
{
public:
~GetDateTime() = default;
GetDateTime() = delete;
GetDateTime(const GetDateTime&) = delete;
GetDateTime(GetDateTime&&) = default;
GetDateTime& operator=(const GetDateTime&) = delete;
GetDateTime& operator=(GetDateTime&&) = delete;
using CommandInterface::CommandInterface;
std::pair<int, std::vector<uint8_t>> createRequestMsg() override
{
std::vector<uint8_t> requestMsg(sizeof(pldm_msg_hdr));
auto request = reinterpret_cast<pldm_msg*>(requestMsg.data());
auto rc = encode_get_date_time_req(instanceId, request);
return {rc, requestMsg};
}
void parseResponseMsg(pldm_msg* responsePtr, size_t payloadLength) override
{
uint8_t cc = 0;
uint8_t seconds, minutes, hours, day, month;
uint16_t year;
auto rc = decode_get_date_time_resp(responsePtr, payloadLength, &cc,
&seconds, &minutes, &hours, &day,
&month, &year);
if (rc != PLDM_SUCCESS || cc != PLDM_SUCCESS)
{
std::cerr << "Response Message Error: "
<< "rc=" << rc << ",cc=" << (int)cc << std::endl;
return;
}
std::stringstream dt;
ordered_json data;
dt << bcd2dec16(year) << "-" << setWidth(month) << "-" << setWidth(day)
<< " " << setWidth(hours) << ":" << setWidth(minutes) << ":"
<< setWidth(seconds);
data["Response"] = dt.str();
pldmtool::helper::DisplayInJson(data);
}
private:
static std::string setWidth(uint8_t data)
{
std::stringstream s;
s << std::setfill('0') << std::setw(2)
<< static_cast<uint32_t>(bcd2dec8(data));
return s.str();
}
};
class SetDateTime : public CommandInterface
{
public:
~SetDateTime() = default;
SetDateTime() = delete;
SetDateTime(const SetDateTime&) = delete;
SetDateTime(SetDateTime&&) = default;
SetDateTime& operator=(const SetDateTime&) = delete;
SetDateTime& operator=(SetDateTime&&) = delete;
explicit SetDateTime(const char* type, const char* name, CLI::App* app) :
CommandInterface(type, name, app)
{
app->add_option("-d,--data", tmData,
"set date time data\n"
"eg: YYYYMMDDHHMMSS")
->required();
}
std::pair<int, std::vector<uint8_t>> createRequestMsg() override
{
std::vector<uint8_t> requestMsg(sizeof(pldm_msg_hdr) +
sizeof(struct pldm_set_date_time_req));
auto request = reinterpret_cast<pldm_msg*>(requestMsg.data());
uint16_t year = 0;
uint8_t month = 0;
uint8_t day = 0;
uint8_t hours = 0;
uint8_t minutes = 0;
uint8_t seconds = 0;
if (!uintToDate(tmData, &year, &month, &day, &hours, &minutes,
&seconds))
{
std::cerr << "decode date Error: "
<< "tmData=" << tmData << std::endl;
return {PLDM_ERROR_INVALID_DATA, requestMsg};
}
auto rc = encode_set_date_time_req(
instanceId, seconds, minutes, hours, day, month, year, request,
sizeof(struct pldm_set_date_time_req));
return {rc, requestMsg};
}
void parseResponseMsg(pldm_msg* responsePtr, size_t payloadLength) override
{
uint8_t completionCode = 0;
auto rc = decode_set_date_time_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:
uint64_t tmData;
};
class GetBIOSTableHandler : public CommandInterface
{
public:
~GetBIOSTableHandler() = default;
GetBIOSTableHandler() = delete;
GetBIOSTableHandler(const GetBIOSTableHandler&) = delete;
GetBIOSTableHandler(GetBIOSTableHandler&&) = delete;
GetBIOSTableHandler& operator=(const GetBIOSTableHandler&) = delete;
GetBIOSTableHandler& operator=(GetBIOSTableHandler&&) = delete;
using Table = std::vector<uint8_t>;
using CommandInterface::CommandInterface;
static inline const std::map<pldm_bios_attribute_type, const char*>
attrTypeMap = {
{PLDM_BIOS_ENUMERATION, "BIOSEnumeration"},
{PLDM_BIOS_ENUMERATION_READ_ONLY, "BIOSEnumerationReadOnly"},
{PLDM_BIOS_STRING, "BIOSString"},
{PLDM_BIOS_STRING_READ_ONLY, "BIOSStringReadOnly"},
{PLDM_BIOS_PASSWORD, "BIOSPassword"},
{PLDM_BIOS_PASSWORD_READ_ONLY, "BIOSPasswordReadOnly"},
{PLDM_BIOS_INTEGER, "BIOSInteger"},
{PLDM_BIOS_INTEGER_READ_ONLY, "BIOSIntegerReadOnly"},
};
std::pair<int, std::vector<uint8_t>> createRequestMsg() override
{
return {PLDM_ERROR, {}};
}
void parseResponseMsg(pldm_msg*, size_t) override {}
std::optional<Table> getBIOSTable(pldm_bios_table_types tableType)
{
std::vector<uint8_t> requestMsg(sizeof(pldm_msg_hdr) +
PLDM_GET_BIOS_TABLE_REQ_BYTES);
auto request = reinterpret_cast<pldm_msg*>(requestMsg.data());
auto rc = encode_get_bios_table_req(instanceId, 0, PLDM_GET_FIRSTPART,
tableType, request);
if (rc != PLDM_SUCCESS)
{
std::cerr << "Encode GetBIOSTable Error, tableType=," << tableType
<< " ,rc=" << rc << std::endl;
return std::nullopt;
}
std::vector<uint8_t> responseMsg;
rc = pldmSendRecv(requestMsg, responseMsg);
if (rc != PLDM_SUCCESS)
{
std::cerr << "PLDM: Communication Error, rc =" << rc << std::endl;
return std::nullopt;
}
uint8_t cc = 0, transferFlag = 0;
uint32_t nextTransferHandle = 0;
size_t bios_table_offset;
auto responsePtr =
reinterpret_cast<struct pldm_msg*>(responseMsg.data());
auto payloadLength = responseMsg.size() - sizeof(pldm_msg_hdr);
rc = decode_get_bios_table_resp(responsePtr, payloadLength, &cc,
&nextTransferHandle, &transferFlag,
&bios_table_offset);
if (rc != PLDM_SUCCESS || cc != PLDM_SUCCESS)
{
std::cerr << "GetBIOSTable Response Error: tableType=" << tableType
<< ", rc=" << rc << ", cc=" << (int)cc << std::endl;
return std::nullopt;
}
auto tableData =
reinterpret_cast<char*>((responsePtr->payload) + bios_table_offset);
auto tableSize = payloadLength - sizeof(nextTransferHandle) -
sizeof(transferFlag) - sizeof(cc);
return std::make_optional<Table>(tableData, tableData + tableSize);
}
const pldm_bios_attr_table_entry*
findAttrEntryByName(const std::string& name, const Table& attrTable,
const Table& stringTable)
{
auto stringEntry = pldm_bios_table_string_find_by_string(
stringTable.data(), stringTable.size(), name.c_str());
if (stringEntry == nullptr)
{
return nullptr;
}
auto nameHandle =
pldm_bios_table_string_entry_decode_handle(stringEntry);
for (auto attr : BIOSTableIter<PLDM_BIOS_ATTR_TABLE>(attrTable.data(),
attrTable.size()))
{
auto attrNameHandle =
pldm_bios_table_attr_entry_decode_string_handle(attr);
if (attrNameHandle == nameHandle)
{
return attr;
}
}
return nullptr;
}
std::optional<uint16_t> findAttrHandleByName(const std::string& name,
const Table& attrTable,
const Table& stringTable)
{
auto attribute = findAttrEntryByName(name, attrTable, stringTable);
if (attribute == nullptr)
{
return std::nullopt;
}
return pldm_bios_table_attr_entry_decode_attribute_handle(attribute);
}
std::string decodeStringFromStringEntry(
const pldm_bios_string_table_entry* stringEntry)
{
auto strLength =
pldm_bios_table_string_entry_decode_string_length(stringEntry);
std::vector<char> buffer(strLength + 1 /* sizeof '\0' */);
// Preconditions are upheld therefore no error check necessary
pldm_bios_table_string_entry_decode_string_check(
stringEntry, buffer.data(), buffer.size());
return std::string(buffer.data(), buffer.data() + strLength);
}
std::string displayStringHandle(uint16_t handle,
const std::optional<Table>& stringTable,
bool displayHandle = true)
{
std::string displayString = std::to_string(handle);
if (!stringTable)
{
return displayString;
}
auto stringEntry = pldm_bios_table_string_find_by_handle(
stringTable->data(), stringTable->size(), handle);
if (stringEntry == nullptr)
{
return displayString;
}
auto decodedStr = decodeStringFromStringEntry(stringEntry);
if (!displayHandle)
{
return decodedStr;
}
return displayString + "(" + decodedStr + ")";
}
std::string displayEnumValueByIndex(uint16_t attrHandle, uint8_t index,
const std::optional<Table>& attrTable,
const std::optional<Table>& stringTable)
{
std::string displayString;
if (!attrTable)
{
return displayString;
}
auto attrEntry = pldm_bios_table_attr_find_by_handle(
attrTable->data(), attrTable->size(), attrHandle);
if (attrEntry == nullptr)
{
return displayString;
}
uint8_t pvNum;
int rc = pldm_bios_table_attr_entry_enum_decode_pv_num_check(attrEntry,
&pvNum);
if (rc != PLDM_SUCCESS)
{
return displayString;
}
std::vector<uint16_t> pvHandls(pvNum);
// Preconditions are upheld therefore no error check necessary
pldm_bios_table_attr_entry_enum_decode_pv_hdls_check(
attrEntry, pvHandls.data(), pvHandls.size());
return displayStringHandle(pvHandls[index], stringTable, false);
}
void displayAttributeValueEntry(
const pldm_bios_attr_val_table_entry* tableEntry,
const std::optional<Table>& attrTable,
const std::optional<Table>& stringTable, bool verbose,
ordered_json& output)
{
auto attrHandle =
pldm_bios_table_attr_value_entry_decode_attribute_handle(
tableEntry);
auto attrType = static_cast<pldm_bios_attribute_type>(
pldm_bios_table_attr_value_entry_decode_attribute_type(tableEntry));
if (verbose)
{
output["AttributeHandle"] = attrHandle;
if (attrTypeMap.contains(attrType))
{
output["AttributeType"] = attrTypeMap.at(attrType);
}
else
{
std::cout << "Get AttributeType failed.\n";
}
}
switch (attrType)
{
case PLDM_BIOS_ENUMERATION:
case PLDM_BIOS_ENUMERATION_READ_ONLY:
{
auto count =
pldm_bios_table_attr_value_entry_enum_decode_number(
tableEntry);
std::vector<uint8_t> handles(count);
pldm_bios_table_attr_value_entry_enum_decode_handles(
tableEntry, handles.data(), handles.size());
if (verbose)
{
output["NumberOfCurrentValues"] = (int)count;
}
for (size_t i = 0; i < handles.size(); i++)
{
if (verbose)
{
output["CurrentValueStringHandleIndex[" +
std::to_string(i) + "]"] =
displayEnumValueByIndex(attrHandle, handles[i],
attrTable, stringTable);
}
else
{
output["CurrentValue"] = displayEnumValueByIndex(
attrHandle, handles[i], attrTable, stringTable);
}
}
break;
}
case PLDM_BIOS_INTEGER:
case PLDM_BIOS_INTEGER_READ_ONLY:
{
auto cv = pldm_bios_table_attr_value_entry_integer_decode_cv(
tableEntry);
if (verbose)
{
output["CurrentValue"] = cv;
}
else
{
output["CurrentValue"] = cv;
}
break;
}
case PLDM_BIOS_STRING:
case PLDM_BIOS_STRING_READ_ONLY:
{
variable_field currentString;
pldm_bios_table_attr_value_entry_string_decode_string(
tableEntry, &currentString);
if (verbose)
{
output["CurrentStringLength"] = currentString.length;
output["CurrentString"] = std::string(
reinterpret_cast<const char*>(currentString.ptr),
currentString.length);
}
else
{
output["CurrentValue"] = std::string(
reinterpret_cast<const char*>(currentString.ptr),
currentString.length);
}
break;
}
case PLDM_BIOS_PASSWORD:
case PLDM_BIOS_PASSWORD_READ_ONLY:
{
std::cout << "Password attribute: Not Supported" << std::endl;
break;
}
}
}
};
class GetBIOSTable : public GetBIOSTableHandler
{
public:
~GetBIOSTable() = default;
GetBIOSTable() = delete;
GetBIOSTable(const GetBIOSTable&) = delete;
GetBIOSTable(GetBIOSTable&&) = delete;
GetBIOSTable& operator=(const GetBIOSTable&) = delete;
GetBIOSTable& operator=(GetBIOSTable&&) = delete;
using Table = std::vector<uint8_t>;
explicit GetBIOSTable(const char* type, const char* name, CLI::App* app) :
GetBIOSTableHandler(type, name, app)
{
app->add_option("-t,--type", pldmBIOSTableType, "pldm bios table type")
->required()
->transform(
CLI::CheckedTransformer(pldmBIOSTableTypes, CLI::ignore_case));
}
void exec() override
{
switch (pldmBIOSTableType)
{
case PLDM_BIOS_STRING_TABLE:
{
auto stringTable = getBIOSTable(PLDM_BIOS_STRING_TABLE);
decodeStringTable(stringTable);
break;
}
case PLDM_BIOS_ATTR_TABLE:
{
auto stringTable = getBIOSTable(PLDM_BIOS_STRING_TABLE);
auto attrTable = getBIOSTable(PLDM_BIOS_ATTR_TABLE);
decodeAttributeTable(attrTable, stringTable);
break;
}
case PLDM_BIOS_ATTR_VAL_TABLE:
{
auto stringTable = getBIOSTable(PLDM_BIOS_STRING_TABLE);
auto attrTable = getBIOSTable(PLDM_BIOS_ATTR_TABLE);
auto attrValTable = getBIOSTable(PLDM_BIOS_ATTR_VAL_TABLE);
decodeAttributeValueTable(attrValTable, attrTable, stringTable);
break;
}
}
}
private:
pldm_bios_table_types pldmBIOSTableType;
void decodeStringTable(const std::optional<Table>& stringTable)
{
if (!stringTable)
{
std::cerr << "GetBIOSStringTable Error" << std::endl;
return;
}
ordered_json stringdata;
for (auto tableEntry : BIOSTableIter<PLDM_BIOS_STRING_TABLE>(
stringTable->data(), stringTable->size()))
{
auto strHandle =
pldm_bios_table_string_entry_decode_handle(tableEntry);
auto strTableData = decodeStringFromStringEntry(tableEntry);
stringdata[std::to_string(strHandle)] = strTableData;
}
pldmtool::helper::DisplayInJson(stringdata);
}
void decodeAttributeTable(const std::optional<Table>& attrTable,
const std::optional<Table>& stringTable)
{
if (!stringTable)
{
std::cerr << "GetBIOSAttributeTable Error" << std::endl;
return;
}
ordered_json output;
for (auto entry : BIOSTableIter<PLDM_BIOS_ATTR_TABLE>(
attrTable->data(), attrTable->size()))
{
ordered_json attrdata;
auto attrHandle =
pldm_bios_table_attr_entry_decode_attribute_handle(entry);
auto attrNameHandle =
pldm_bios_table_attr_entry_decode_string_handle(entry);
auto attrType = static_cast<pldm_bios_attribute_type>(
pldm_bios_table_attr_entry_decode_attribute_type(entry));
attrdata["AttributeHandle"] = attrHandle;
attrdata["AttributeNameHandle"] =
displayStringHandle(attrNameHandle, stringTable);
if (attrTypeMap.contains(attrType))
{
attrdata["AttributeType"] = attrTypeMap.at(attrType);
}
else
{
std::cout << "Get AttributeType failed.\n";
}
switch (attrType)
{
case PLDM_BIOS_ENUMERATION:
case PLDM_BIOS_ENUMERATION_READ_ONLY:
{
uint8_t pvNum;
// Preconditions are upheld therefore no error check
// necessary
pldm_bios_table_attr_entry_enum_decode_pv_num_check(entry,
&pvNum);
std::vector<uint16_t> pvHandls(pvNum);
// Preconditions are upheld therefore no error check
// necessary
pldm_bios_table_attr_entry_enum_decode_pv_hdls_check(
entry, pvHandls.data(), pvHandls.size());
uint8_t defNum;
// Preconditions are upheld therefore no error check
// necessary
pldm_bios_table_attr_entry_enum_decode_def_num_check(
entry, &defNum);
std::vector<uint8_t> defIndices(defNum);
pldm_bios_table_attr_entry_enum_decode_def_indices(
entry, defIndices.data(), defIndices.size());
attrdata["NumberOfPossibleValues"] = (int)pvNum;
for (size_t i = 0; i < pvHandls.size(); i++)
{
attrdata["PossibleValueStringHandle[" +
std::to_string(i) + "]"] =
displayStringHandle(pvHandls[i], stringTable);
}
attrdata["NumberOfDefaultValues"] = (int)defNum;
for (size_t i = 0; i < defIndices.size(); i++)
{
attrdata["DefaultValueStringHandleIndex[" +
std::to_string(i) + "]"] = (int)defIndices[i];
attrdata["DefaultValueStringHandle"] =
displayStringHandle(pvHandls[defIndices[i]],
stringTable);
}
break;
}
case PLDM_BIOS_INTEGER:
case PLDM_BIOS_INTEGER_READ_ONLY:
{
uint64_t lower, upper, def;
uint32_t scalar;
pldm_bios_table_attr_entry_integer_decode(
entry, &lower, &upper, &scalar, &def);
attrdata["LowerBound"] = lower;
attrdata["UpperBound"] = upper;
attrdata["ScalarIncrement"] = scalar;
attrdata["DefaultValue"] = def;
break;
}
case PLDM_BIOS_STRING:
case PLDM_BIOS_STRING_READ_ONLY:
{
auto strType =
pldm_bios_table_attr_entry_string_decode_string_type(
entry);
auto min =
pldm_bios_table_attr_entry_string_decode_min_length(
entry);
auto max =
pldm_bios_table_attr_entry_string_decode_max_length(
entry);
uint16_t def;
// Preconditions are upheld therefore no error check
// necessary
pldm_bios_table_attr_entry_string_decode_def_string_length_check(
entry, &def);
std::vector<char> defString(def + 1);
pldm_bios_table_attr_entry_string_decode_def_string(
entry, defString.data(), defString.size());
std::stringstream stringtype;
stringtype << "0x" << std::hex << std::setw(2)
<< std::setfill('0') << (int)strType << std::dec
<< std::setw(0);
attrdata["StringType"] = stringtype.str();
attrdata["MinimumStringLength"] = (int)min;
attrdata["MaximumStringLength"] = (int)max;
attrdata["DefaultStringLength"] = (int)def;
attrdata["DefaultString"] = defString.data();
break;
}
case PLDM_BIOS_PASSWORD:
case PLDM_BIOS_PASSWORD_READ_ONLY:
std::cout << "Password attribute: Not Supported"
<< std::endl;
}
output.emplace_back(std::move(attrdata));
}
pldmtool::helper::DisplayInJson(output);
}
void decodeAttributeValueTable(const std::optional<Table>& attrValTable,
const std::optional<Table>& attrTable,
const std::optional<Table>& stringTable)
{
if (!attrValTable)
{
std::cerr << "GetBIOSAttributeValueTable Error" << std::endl;
return;
}
ordered_json output;
for (auto tableEntry : BIOSTableIter<PLDM_BIOS_ATTR_VAL_TABLE>(
attrValTable->data(), attrValTable->size()))
{
ordered_json attrValueData;
displayAttributeValueEntry(tableEntry, attrTable, stringTable, true,
attrValueData);
output.emplace_back(attrValueData);
}
pldmtool::helper::DisplayInJson(output);
}
};
class GetBIOSAttributeCurrentValueByHandle : public GetBIOSTableHandler
{
public:
~GetBIOSAttributeCurrentValueByHandle() = default;
GetBIOSAttributeCurrentValueByHandle(
const GetBIOSAttributeCurrentValueByHandle&) = delete;
GetBIOSAttributeCurrentValueByHandle(
GetBIOSAttributeCurrentValueByHandle&&) = delete;
GetBIOSAttributeCurrentValueByHandle&
operator=(const GetBIOSAttributeCurrentValueByHandle&) = delete;
GetBIOSAttributeCurrentValueByHandle&
operator=(GetBIOSAttributeCurrentValueByHandle&&) = delete;
explicit GetBIOSAttributeCurrentValueByHandle(const char* type,
const char* name,
CLI::App* app) :
GetBIOSTableHandler(type, name, app)
{
app->add_option("-a, --attribute", attrName, "pldm BIOS attribute name")
->required();
}
void exec()
{
auto stringTable = getBIOSTable(PLDM_BIOS_STRING_TABLE);
auto attrTable = getBIOSTable(PLDM_BIOS_ATTR_TABLE);
if (!stringTable || !attrTable)
{
std::cout << "StringTable/AttrTable Unavaliable" << std::endl;
return;
}
auto handle = findAttrHandleByName(attrName, *attrTable, *stringTable);
if (!handle)
{
std::cerr << "Can not find the attribute " << attrName << std::endl;
return;
}
std::vector<uint8_t> requestMsg(
sizeof(pldm_msg_hdr) +
PLDM_GET_BIOS_ATTR_CURR_VAL_BY_HANDLE_REQ_BYTES);
auto request = reinterpret_cast<pldm_msg*>(requestMsg.data());
auto rc = encode_get_bios_attribute_current_value_by_handle_req(
instanceId, 0, PLDM_GET_FIRSTPART, *handle, request);
if (rc != PLDM_SUCCESS)
{
std::cerr << "PLDM: Request Message Error, rc =" << rc << std::endl;
return;
}
std::vector<uint8_t> responseMsg;
rc = pldmSendRecv(requestMsg, responseMsg);
if (rc != PLDM_SUCCESS)
{
std::cerr << "PLDM: Communication Error, rc =" << rc << std::endl;
return;
}
uint8_t cc = 0, transferFlag = 0;
uint32_t nextTransferHandle = 0;
struct variable_field attributeData;
auto responsePtr =
reinterpret_cast<struct pldm_msg*>(responseMsg.data());
auto payloadLength = responseMsg.size() - sizeof(pldm_msg_hdr);
rc = decode_get_bios_attribute_current_value_by_handle_resp(
responsePtr, payloadLength, &cc, &nextTransferHandle, &transferFlag,
&attributeData);
if (rc != PLDM_SUCCESS || cc != PLDM_SUCCESS)
{
std::cerr << "Response Message Error: "
<< "rc=" << rc << ",cc=" << (int)cc << std::endl;
return;
}
auto tableEntry =
reinterpret_cast<const struct pldm_bios_attr_val_table_entry*>(
attributeData.ptr);
ordered_json avdata;
displayAttributeValueEntry(tableEntry, attrTable, stringTable, false,
avdata);
pldmtool::helper::DisplayInJson(avdata);
}
private:
std::string attrName;
};
class SetBIOSAttributeCurrentValue : public GetBIOSTableHandler
{
public:
~SetBIOSAttributeCurrentValue() = default;
SetBIOSAttributeCurrentValue() = delete;
SetBIOSAttributeCurrentValue(const SetBIOSAttributeCurrentValue&) = delete;
SetBIOSAttributeCurrentValue(SetBIOSAttributeCurrentValue&&) = delete;
SetBIOSAttributeCurrentValue&
operator=(const SetBIOSAttributeCurrentValue&) = delete;
SetBIOSAttributeCurrentValue&
operator=(SetBIOSAttributeCurrentValue&&) = delete;
explicit SetBIOSAttributeCurrentValue(const char* type, const char* name,
CLI::App* app) :
GetBIOSTableHandler(type, name, app)
{
app->add_option("-a, --attribute", attrName, "pldm attribute name")
->required();
app->add_option("-d, --data", attrValue, "pldm attribute value")
->required();
// -v is conflict with --verbose in class CommandInterface, so used -d
}
void exec()
{
auto stringTable = getBIOSTable(PLDM_BIOS_STRING_TABLE);
auto attrTable = getBIOSTable(PLDM_BIOS_ATTR_TABLE);
auto attrValueTable = getBIOSTable(PLDM_BIOS_ATTR_VAL_TABLE);
if (!stringTable || !attrTable)
{
std::cout << "StringTable/AttrTable Unavaliable" << std::endl;
return;
}
auto attrEntry = findAttrEntryByName(attrName, *attrTable,
*stringTable);
if (attrEntry == nullptr)
{
std::cout << "Could not find attribute :" << attrName << std::endl;
return;
}
std::vector<uint8_t> requestMsg;
int rc = 0;
auto attrType = attrEntry->attr_type;
size_t entryLength = 1;
std::vector<uint8_t> attrValueEntry(entryLength, 0);
switch (attrType)
{
case PLDM_BIOS_ENUMERATION:
case PLDM_BIOS_ENUMERATION_READ_ONLY:
{
entryLength =
pldm_bios_table_attr_value_entry_encode_enum_length(1);
uint8_t pvNum;
// Preconditions are upheld therefore no error check necessary
pldm_bios_table_attr_entry_enum_decode_pv_num_check(attrEntry,
&pvNum);
std::vector<uint16_t> pvHdls(pvNum, 0);
// Preconditions are upheld therefore no error check necessary
pldm_bios_table_attr_entry_enum_decode_pv_hdls_check(
attrEntry, pvHdls.data(), pvNum);
auto stringEntry = pldm_bios_table_string_find_by_string(
stringTable->data(), stringTable->size(),
attrValue.c_str());
if (stringEntry == nullptr)
{
std::cout
<< "Set Attribute Error: It's not a possible value"
<< std::endl;
return;
}
auto valueHandle =
pldm_bios_table_string_entry_decode_handle(stringEntry);
uint8_t i;
for (i = 0; i < pvNum; i++)
{
if (valueHandle == pvHdls[i])
break;
}
if (i == pvNum)
{
std::cout
<< "Set Attribute Error: It's not a possible value"
<< std::endl;
return;
}
attrValueEntry.resize(entryLength);
std::vector<uint8_t> handles = {i};
int rc = pldm_bios_table_attr_value_entry_encode_enum_check(
attrValueEntry.data(), attrValueEntry.size(),
attrEntry->attr_handle, attrType, 1, handles.data());
if (rc != PLDM_SUCCESS)
{
std::cout
<< "Failed to encode BIOS table attribute enum: " << rc
<< std::endl;
return;
}
break;
}
case PLDM_BIOS_STRING:
case PLDM_BIOS_STRING_READ_ONLY:
{
entryLength =
pldm_bios_table_attr_value_entry_encode_string_length(
attrValue.size());
attrValueEntry.resize(entryLength);
int rc = pldm_bios_table_attr_value_entry_encode_string_check(
attrValueEntry.data(), entryLength, attrEntry->attr_handle,
attrType, attrValue.size(), attrValue.c_str());
if (rc != PLDM_SUCCESS)
{
std::cout
<< "Failed to encode BIOS table attribute string: "
<< rc << std::endl;
return;
}
break;
}
case PLDM_BIOS_INTEGER:
case PLDM_BIOS_INTEGER_READ_ONLY:
{
uint64_t value = std::stoll(attrValue);
entryLength =
pldm_bios_table_attr_value_entry_encode_integer_length();
attrValueEntry.resize(entryLength);
int rc = pldm_bios_table_attr_value_entry_encode_integer_check(
attrValueEntry.data(), entryLength, attrEntry->attr_handle,
attrType, value);
if (rc != PLDM_SUCCESS)
{
std::cout
<< "Failed to encode BIOS table attribute integer: "
<< rc << std::endl;
return;
}
break;
}
}
requestMsg.resize(entryLength + sizeof(pldm_msg_hdr) +
PLDM_SET_BIOS_ATTR_CURR_VAL_MIN_REQ_BYTES);
rc = encode_set_bios_attribute_current_value_req(
instanceId, 0, PLDM_START_AND_END, attrValueEntry.data(),
attrValueEntry.size(),
reinterpret_cast<pldm_msg*>(requestMsg.data()),
requestMsg.size() - sizeof(pldm_msg_hdr));
if (rc != PLDM_SUCCESS)
{
std::cerr << "PLDM: Request Message Error, rc =" << rc << std::endl;
return;
}
std::vector<uint8_t> responseMsg;
rc = pldmSendRecv(requestMsg, responseMsg);
if (rc != PLDM_SUCCESS)
{
std::cerr << "PLDM: Communication Error, rc =" << rc << std::endl;
return;
}
uint8_t cc = 0;
uint32_t nextTransferHandle = 0;
auto responsePtr =
reinterpret_cast<struct pldm_msg*>(responseMsg.data());
auto payloadLength = responseMsg.size() - sizeof(pldm_msg_hdr);
rc = decode_set_bios_attribute_current_value_resp(
responsePtr, payloadLength, &cc, &nextTransferHandle);
if (rc != PLDM_SUCCESS || cc != PLDM_SUCCESS)
{
std::cerr << "Response Message Error: "
<< "rc=" << rc << ",cc=" << (int)cc << std::endl;
return;
}
ordered_json data;
data["Response"] = "SUCCESS";
pldmtool::helper::DisplayInJson(data);
}
private:
std::string attrName;
std::string attrValue;
};
void registerCommand(CLI::App& app)
{
auto bios = app.add_subcommand("bios", "bios type command");
bios->require_subcommand(1);
auto getDateTime = bios->add_subcommand("GetDateTime", "get date time");
commands.push_back(
std::make_unique<GetDateTime>("bios", "GetDateTime", getDateTime));
auto setDateTime = bios->add_subcommand("SetDateTime",
"set host date time");
commands.push_back(
std::make_unique<SetDateTime>("bios", "setDateTime", setDateTime));
auto getBIOSTable = bios->add_subcommand("GetBIOSTable", "get bios table");
commands.push_back(
std::make_unique<GetBIOSTable>("bios", "GetBIOSTable", getBIOSTable));
auto getBIOSAttributeCurrentValueByHandle =
bios->add_subcommand("GetBIOSAttributeCurrentValueByHandle",
"get bios attribute current value by handle");
commands.push_back(std::make_unique<GetBIOSAttributeCurrentValueByHandle>(
"bios", "GetBIOSAttributeCurrentValueByHandle",
getBIOSAttributeCurrentValueByHandle));
auto setBIOSAttributeCurrentValue = bios->add_subcommand(
"SetBIOSAttributeCurrentValue", "set bios attribute current value");
commands.push_back(std::make_unique<SetBIOSAttributeCurrentValue>(
"bios", "SetBIOSAttributeCurrentValue", setBIOSAttributeCurrentValue));
}
} // namespace bios
} // namespace pldmtool