blob: b3d827fd5c6787551ac515ac2372386637b47031 [file] [log] [blame]
#include "bios_config.hpp"
#include "bios_enum_attribute.hpp"
#include "bios_integer_attribute.hpp"
#include "bios_string_attribute.hpp"
#include "bios_table.hpp"
#include "common/bios_utils.hpp"
#include <xyz/openbmc_project/BIOSConfig/Manager/server.hpp>
#include <fstream>
#include <iostream>
#ifdef OEM_IBM
#include "oem/ibm/libpldmresponder/platform_oem_ibm.hpp"
#endif
namespace pldm
{
namespace responder
{
namespace bios
{
namespace
{
using BIOSConfigManager =
sdbusplus::xyz::openbmc_project::BIOSConfig::server::Manager;
constexpr auto enumJsonFile = "enum_attrs.json";
constexpr auto stringJsonFile = "string_attrs.json";
constexpr auto integerJsonFile = "integer_attrs.json";
constexpr auto stringTableFile = "stringTable";
constexpr auto attrTableFile = "attributeTable";
constexpr auto attrValueTableFile = "attributeValueTable";
} // namespace
BIOSConfig::BIOSConfig(const char* jsonDir, const char* tableDir,
DBusHandler* const dbusHandler, int fd, uint8_t eid,
dbus_api::Requester* requester) :
jsonDir(jsonDir),
tableDir(tableDir), dbusHandler(dbusHandler), fd(fd), eid(eid),
requester(requester)
{
fs::create_directories(tableDir);
constructAttributes();
listenPendingAttributes();
}
void BIOSConfig::buildTables()
{
auto stringTable = buildAndStoreStringTable();
if (stringTable)
{
buildAndStoreAttrTables(*stringTable);
}
}
std::optional<Table> BIOSConfig::getBIOSTable(pldm_bios_table_types tableType)
{
fs::path tablePath;
switch (tableType)
{
case PLDM_BIOS_STRING_TABLE:
tablePath = tableDir / stringTableFile;
break;
case PLDM_BIOS_ATTR_TABLE:
tablePath = tableDir / attrTableFile;
break;
case PLDM_BIOS_ATTR_VAL_TABLE:
tablePath = tableDir / attrValueTableFile;
break;
}
return loadTable(tablePath);
}
int BIOSConfig::setBIOSTable(uint8_t tableType, const Table& table,
bool updateBaseBIOSTable)
{
fs::path stringTablePath(tableDir / stringTableFile);
fs::path attrTablePath(tableDir / attrTableFile);
fs::path attrValueTablePath(tableDir / attrValueTableFile);
if (!pldm_bios_table_checksum(table.data(), table.size()))
{
return PLDM_INVALID_BIOS_TABLE_DATA_INTEGRITY_CHECK;
}
if (tableType == PLDM_BIOS_STRING_TABLE)
{
storeTable(stringTablePath, table);
}
else if (tableType == PLDM_BIOS_ATTR_TABLE)
{
BIOSTable biosStringTable(stringTablePath.c_str());
if (biosStringTable.isEmpty())
{
return PLDM_INVALID_BIOS_TABLE_TYPE;
}
auto rc = checkAttributeTable(table);
if (rc != PLDM_SUCCESS)
{
return rc;
}
storeTable(attrTablePath, table);
}
else if (tableType == PLDM_BIOS_ATTR_VAL_TABLE)
{
BIOSTable biosStringTable(stringTablePath.c_str());
BIOSTable biosStringValueTable(attrTablePath.c_str());
if (biosStringTable.isEmpty() || biosStringValueTable.isEmpty())
{
return PLDM_INVALID_BIOS_TABLE_TYPE;
}
auto rc = checkAttributeValueTable(table);
if (rc != PLDM_SUCCESS)
{
return rc;
}
storeTable(attrValueTablePath, table);
}
else
{
return PLDM_INVALID_BIOS_TABLE_TYPE;
}
if ((tableType == PLDM_BIOS_ATTR_VAL_TABLE) && updateBaseBIOSTable)
{
std::cout << "setBIOSTable:: updateBaseBIOSTableProperty() "
<< "\n";
updateBaseBIOSTableProperty();
}
return PLDM_SUCCESS;
}
int BIOSConfig::checkAttributeTable(const Table& table)
{
using namespace pldm::bios::utils;
auto stringTable = getBIOSTable(PLDM_BIOS_STRING_TABLE);
for (auto entry :
BIOSTableIter<PLDM_BIOS_ATTR_TABLE>(table.data(), table.size()))
{
auto attrNameHandle =
pldm_bios_table_attr_entry_decode_string_handle(entry);
auto stringEnty = pldm_bios_table_string_find_by_handle(
stringTable->data(), stringTable->size(), attrNameHandle);
if (stringEnty == nullptr)
{
return PLDM_INVALID_BIOS_ATTR_HANDLE;
}
auto attrType = static_cast<pldm_bios_attribute_type>(
pldm_bios_table_attr_entry_decode_attribute_type(entry));
switch (attrType)
{
case PLDM_BIOS_ENUMERATION:
case PLDM_BIOS_ENUMERATION_READ_ONLY:
{
auto pvNum =
pldm_bios_table_attr_entry_enum_decode_pv_num(entry);
std::vector<uint16_t> pvHandls(pvNum);
pldm_bios_table_attr_entry_enum_decode_pv_hdls(
entry, pvHandls.data(), pvHandls.size());
auto defNum =
pldm_bios_table_attr_entry_enum_decode_def_num(entry);
std::vector<uint8_t> defIndices(defNum);
pldm_bios_table_attr_entry_enum_decode_def_indices(
entry, defIndices.data(), defIndices.size());
for (size_t i = 0; i < pvHandls.size(); i++)
{
auto stringEntry = pldm_bios_table_string_find_by_handle(
stringTable->data(), stringTable->size(), pvHandls[i]);
if (stringEntry == nullptr)
{
return PLDM_INVALID_BIOS_ATTR_HANDLE;
}
}
for (size_t i = 0; i < defIndices.size(); i++)
{
auto stringEntry = pldm_bios_table_string_find_by_handle(
stringTable->data(), stringTable->size(),
pvHandls[defIndices[i]]);
if (stringEntry == nullptr)
{
return PLDM_INVALID_BIOS_ATTR_HANDLE;
}
}
break;
}
case PLDM_BIOS_INTEGER:
case PLDM_BIOS_INTEGER_READ_ONLY:
case PLDM_BIOS_STRING:
case PLDM_BIOS_STRING_READ_ONLY:
case PLDM_BIOS_PASSWORD:
case PLDM_BIOS_PASSWORD_READ_ONLY:
break;
default:
return PLDM_INVALID_BIOS_ATTR_HANDLE;
}
}
return PLDM_SUCCESS;
}
int BIOSConfig::checkAttributeValueTable(const Table& table)
{
using namespace pldm::bios::utils;
auto stringTable = getBIOSTable(PLDM_BIOS_STRING_TABLE);
auto attrTable = getBIOSTable(PLDM_BIOS_ATTR_TABLE);
baseBIOSTableMaps.clear();
for (auto tableEntry :
BIOSTableIter<PLDM_BIOS_ATTR_VAL_TABLE>(table.data(), table.size()))
{
AttributeName attributeName{};
AttributeType attributeType{};
ReadonlyStatus readonlyStatus{};
DisplayName displayName{};
Description description{};
MenuPath menuPath{};
CurrentValue currentValue{};
DefaultValue defaultValue{};
Option options{};
auto attrValueHandle =
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));
auto attrEntry = pldm_bios_table_attr_find_by_handle(
attrTable->data(), attrTable->size(), attrValueHandle);
if (attrEntry == nullptr)
{
return PLDM_INVALID_BIOS_ATTR_HANDLE;
}
auto attrHandle =
pldm_bios_table_attr_entry_decode_attribute_handle(attrEntry);
auto attrNameHandle =
pldm_bios_table_attr_entry_decode_string_handle(attrEntry);
auto stringEntry = pldm_bios_table_string_find_by_handle(
stringTable->data(), stringTable->size(), attrNameHandle);
if (stringEntry == nullptr)
{
return PLDM_INVALID_BIOS_ATTR_HANDLE;
}
auto strLength =
pldm_bios_table_string_entry_decode_string_length(stringEntry);
std::vector<char> buffer(strLength + 1 /* sizeof '\0' */);
pldm_bios_table_string_entry_decode_string(stringEntry, buffer.data(),
buffer.size());
attributeName = std::string(buffer.data(), buffer.data() + strLength);
if (!biosAttributes.empty())
{
readonlyStatus =
biosAttributes[attrHandle % biosAttributes.size()]->readOnly;
description =
biosAttributes[attrHandle % biosAttributes.size()]->helpText;
displayName =
biosAttributes[attrHandle % biosAttributes.size()]->displayName;
}
switch (attrType)
{
case PLDM_BIOS_ENUMERATION:
case PLDM_BIOS_ENUMERATION_READ_ONLY:
{
auto getValue = [](uint16_t handle,
const Table& table) -> std::string {
auto stringEntry = pldm_bios_table_string_find_by_handle(
table.data(), table.size(), handle);
auto strLength =
pldm_bios_table_string_entry_decode_string_length(
stringEntry);
std::vector<char> buffer(strLength + 1 /* sizeof '\0' */);
pldm_bios_table_string_entry_decode_string(
stringEntry, buffer.data(), buffer.size());
return std::string(buffer.data(),
buffer.data() + strLength);
};
attributeType = "xyz.openbmc_project.BIOSConfig.Manager."
"AttributeType.Enumeration";
auto pvNum =
pldm_bios_table_attr_entry_enum_decode_pv_num(attrEntry);
std::vector<uint16_t> pvHandls(pvNum);
pldm_bios_table_attr_entry_enum_decode_pv_hdls(
attrEntry, pvHandls.data(), pvHandls.size());
// get possible_value
for (size_t i = 0; i < pvHandls.size(); i++)
{
options.push_back(
std::make_tuple("xyz.openbmc_project.BIOSConfig."
"Manager.BoundType.OneOf",
getValue(pvHandls[i], *stringTable)));
}
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());
// get current_value
for (size_t i = 0; i < handles.size(); i++)
{
currentValue = getValue(pvHandls[handles[i]], *stringTable);
}
auto defNum =
pldm_bios_table_attr_entry_enum_decode_def_num(attrEntry);
std::vector<uint8_t> defIndices(defNum);
pldm_bios_table_attr_entry_enum_decode_def_indices(
attrEntry, defIndices.data(), defIndices.size());
// get default_value
for (size_t i = 0; i < defIndices.size(); i++)
{
defaultValue =
getValue(pvHandls[defIndices[i]], *stringTable);
}
break;
}
case PLDM_BIOS_INTEGER:
case PLDM_BIOS_INTEGER_READ_ONLY:
{
attributeType = "xyz.openbmc_project.BIOSConfig.Manager."
"AttributeType.Integer";
currentValue = static_cast<int64_t>(
pldm_bios_table_attr_value_entry_integer_decode_cv(
tableEntry));
uint64_t lower, upper, def;
uint32_t scalar;
pldm_bios_table_attr_entry_integer_decode(
attrEntry, &lower, &upper, &scalar, &def);
options.push_back(
std::make_tuple("xyz.openbmc_project.BIOSConfig.Manager."
"BoundType.LowerBound",
static_cast<int64_t>(lower)));
options.push_back(
std::make_tuple("xyz.openbmc_project.BIOSConfig.Manager."
"BoundType.UpperBound",
static_cast<int64_t>(upper)));
options.push_back(
std::make_tuple("xyz.openbmc_project.BIOSConfig.Manager."
"BoundType.ScalarIncrement",
static_cast<int64_t>(scalar)));
defaultValue = static_cast<int64_t>(def);
break;
}
case PLDM_BIOS_STRING:
case PLDM_BIOS_STRING_READ_ONLY:
{
attributeType = "xyz.openbmc_project.BIOSConfig.Manager."
"AttributeType.String";
variable_field currentString;
pldm_bios_table_attr_value_entry_string_decode_string(
tableEntry, &currentString);
currentValue = std::string(
reinterpret_cast<const char*>(currentString.ptr),
currentString.length);
auto min = pldm_bios_table_attr_entry_string_decode_min_length(
attrEntry);
auto max = pldm_bios_table_attr_entry_string_decode_max_length(
attrEntry);
auto def =
pldm_bios_table_attr_entry_string_decode_def_string_length(
attrEntry);
std::vector<char> defString(def + 1);
pldm_bios_table_attr_entry_string_decode_def_string(
attrEntry, defString.data(), defString.size());
options.push_back(
std::make_tuple("xyz.openbmc_project.BIOSConfig.Manager."
"BoundType.MinStringLength",
static_cast<int64_t>(min)));
options.push_back(
std::make_tuple("xyz.openbmc_project.BIOSConfig.Manager."
"BoundType.MaxStringLength",
static_cast<int64_t>(max)));
defaultValue = defString.data();
break;
}
case PLDM_BIOS_PASSWORD:
case PLDM_BIOS_PASSWORD_READ_ONLY:
{
attributeType = "xyz.openbmc_project.BIOSConfig.Manager."
"AttributeType.Password";
break;
}
default:
return PLDM_INVALID_BIOS_ATTR_HANDLE;
}
baseBIOSTableMaps.emplace(
std::move(attributeName),
std::make_tuple(attributeType, readonlyStatus, displayName,
description, menuPath, currentValue, defaultValue,
std::move(options)));
}
return PLDM_SUCCESS;
}
void BIOSConfig::updateBaseBIOSTableProperty()
{
constexpr static auto biosConfigPath =
"/xyz/openbmc_project/bios_config/manager";
constexpr static auto biosConfigInterface =
"xyz.openbmc_project.BIOSConfig.Manager";
constexpr static auto biosConfigPropertyName = "BaseBIOSTable";
constexpr static auto dbusProperties = "org.freedesktop.DBus.Properties";
if (baseBIOSTableMaps.empty())
{
return;
}
try
{
auto& bus = dbusHandler->getBus();
auto service =
dbusHandler->getService(biosConfigPath, biosConfigInterface);
auto method = bus.new_method_call(service.c_str(), biosConfigPath,
dbusProperties, "Set");
std::variant<BaseBIOSTable> value = baseBIOSTableMaps;
method.append(biosConfigInterface, biosConfigPropertyName, value);
bus.call_noreply(method);
}
catch (const std::exception& e)
{
std::cerr << "failed to update BaseBIOSTable property, ERROR="
<< e.what() << "\n";
}
}
void BIOSConfig::constructAttributes()
{
load(jsonDir / stringJsonFile, [this](const Json& entry) {
constructAttribute<BIOSStringAttribute>(entry);
});
load(jsonDir / integerJsonFile, [this](const Json& entry) {
constructAttribute<BIOSIntegerAttribute>(entry);
});
load(jsonDir / enumJsonFile, [this](const Json& entry) {
constructAttribute<BIOSEnumAttribute>(entry);
});
}
void BIOSConfig::buildAndStoreAttrTables(const Table& stringTable)
{
BIOSStringTable biosStringTable(stringTable);
if (biosAttributes.empty())
{
return;
}
BaseBIOSTable biosTable{};
constexpr auto biosObjPath = "/xyz/openbmc_project/bios_config/manager";
constexpr auto biosInterface = "xyz.openbmc_project.BIOSConfig.Manager";
try
{
auto& bus = dbusHandler->getBus();
auto service = dbusHandler->getService(biosObjPath, biosInterface);
auto method =
bus.new_method_call(service.c_str(), biosObjPath,
"org.freedesktop.DBus.Properties", "Get");
method.append(biosInterface, "BaseBIOSTable");
auto reply = bus.call(method);
std::variant<BaseBIOSTable> varBiosTable{};
reply.read(varBiosTable);
biosTable = std::get<BaseBIOSTable>(varBiosTable);
}
// Failed to read the BaseBIOSTable, so update the BaseBIOSTable with the
// default values populated from the BIOS JSONs to keep PLDM and
// bios-settings-manager in sync
catch (const std::exception& e)
{
std::cerr << "Failed to read BaseBIOSTable property, ERROR=" << e.what()
<< "\n";
}
Table attrTable, attrValueTable;
for (auto& attr : biosAttributes)
{
try
{
auto iter = biosTable.find(attr->name);
if (iter == biosTable.end())
{
attr->constructEntry(biosStringTable, attrTable, attrValueTable,
std::nullopt);
}
else
{
attr->constructEntry(
biosStringTable, attrTable, attrValueTable,
std::get<static_cast<uint8_t>(Index::currentValue)>(
iter->second));
}
}
catch (const std::exception& e)
{
std::cerr << "Construct Table Entry Error, AttributeName = "
<< attr->name << std::endl;
}
}
table::appendPadAndChecksum(attrTable);
table::appendPadAndChecksum(attrValueTable);
setBIOSTable(PLDM_BIOS_ATTR_TABLE, attrTable);
setBIOSTable(PLDM_BIOS_ATTR_VAL_TABLE, attrValueTable);
}
std::optional<Table> BIOSConfig::buildAndStoreStringTable()
{
std::set<std::string> strings;
auto handler = [&strings](const Json& entry) {
strings.emplace(entry.at("attribute_name"));
};
load(jsonDir / stringJsonFile, handler);
load(jsonDir / integerJsonFile, handler);
load(jsonDir / enumJsonFile, [&strings](const Json& entry) {
strings.emplace(entry.at("attribute_name"));
auto possibleValues = entry.at("possible_values");
for (auto& pv : possibleValues)
{
strings.emplace(pv);
}
});
if (strings.empty())
{
return std::nullopt;
}
Table table;
for (const auto& elem : strings)
{
table::string::constructEntry(table, elem);
}
table::appendPadAndChecksum(table);
setBIOSTable(PLDM_BIOS_STRING_TABLE, table);
return table;
}
void BIOSConfig::storeTable(const fs::path& path, const Table& table)
{
BIOSTable biosTable(path.c_str());
biosTable.store(table);
}
std::optional<Table> BIOSConfig::loadTable(const fs::path& path)
{
BIOSTable biosTable(path.c_str());
if (biosTable.isEmpty())
{
return std::nullopt;
}
Table table;
biosTable.load(table);
return table;
}
void BIOSConfig::load(const fs::path& filePath, ParseHandler handler)
{
std::ifstream file;
Json jsonConf;
if (fs::exists(filePath))
{
try
{
file.open(filePath);
jsonConf = Json::parse(file);
auto entries = jsonConf.at("entries");
for (auto& entry : entries)
{
try
{
handler(entry);
}
catch (const std::exception& e)
{
std::cerr
<< "Failed to parse JSON config file(entry handler) : "
<< filePath.c_str() << ", " << e.what() << std::endl;
}
}
}
catch (const std::exception& e)
{
std::cerr << "Failed to parse JSON config file : "
<< filePath.c_str() << std::endl;
}
}
}
int BIOSConfig::checkAttrValueToUpdate(
const pldm_bios_attr_val_table_entry* attrValueEntry,
const pldm_bios_attr_table_entry* attrEntry, Table&)
{
auto [attrHandle, attrType] =
table::attribute_value::decodeHeader(attrValueEntry);
switch (attrType)
{
case PLDM_BIOS_ENUMERATION:
{
auto value =
table::attribute_value::decodeEnumEntry(attrValueEntry);
auto [pvHdls, defIndex] =
table::attribute::decodeEnumEntry(attrEntry);
assert(value.size() == 1);
if (value[0] >= pvHdls.size())
{
std::cerr << "Enum: Illgeal index, Index = " << (int)value[0]
<< std::endl;
return PLDM_ERROR_INVALID_DATA;
}
return PLDM_SUCCESS;
}
case PLDM_BIOS_INTEGER:
{
auto value =
table::attribute_value::decodeIntegerEntry(attrValueEntry);
auto [lower, upper, scalar, def] =
table::attribute::decodeIntegerEntry(attrEntry);
if (value < lower || value > upper)
{
std::cerr << "Integer: out of bound, value = " << value
<< std::endl;
return PLDM_ERROR_INVALID_DATA;
}
return PLDM_SUCCESS;
}
case PLDM_BIOS_STRING:
{
auto stringConf = table::attribute::decodeStringEntry(attrEntry);
auto value =
table::attribute_value::decodeStringEntry(attrValueEntry);
if (value.size() < stringConf.minLength ||
value.size() > stringConf.maxLength)
{
std::cerr << "String: Length error, string = " << value
<< " length = " << value.size() << std::endl;
return PLDM_ERROR_INVALID_LENGTH;
}
return PLDM_SUCCESS;
}
default:
std::cerr << "ReadOnly or Unspported type, type = " << attrType
<< std::endl;
return PLDM_ERROR;
};
}
int BIOSConfig::setAttrValue(const void* entry, size_t size,
bool updateBaseBIOSTable)
{
auto attrValueTable = getBIOSTable(PLDM_BIOS_ATTR_VAL_TABLE);
auto attrTable = getBIOSTable(PLDM_BIOS_ATTR_TABLE);
auto stringTable = getBIOSTable(PLDM_BIOS_STRING_TABLE);
if (!attrValueTable || !attrTable || !stringTable)
{
return PLDM_BIOS_TABLE_UNAVAILABLE;
}
auto attrValueEntry =
reinterpret_cast<const pldm_bios_attr_val_table_entry*>(entry);
auto attrValHeader = table::attribute_value::decodeHeader(attrValueEntry);
auto attrEntry =
table::attribute::findByHandle(*attrTable, attrValHeader.attrHandle);
if (!attrEntry)
{
return PLDM_ERROR;
}
auto rc = checkAttrValueToUpdate(attrValueEntry, attrEntry, *stringTable);
if (rc != PLDM_SUCCESS)
{
return rc;
}
auto destTable =
table::attribute_value::updateTable(*attrValueTable, entry, size);
if (!destTable)
{
return PLDM_ERROR;
}
try
{
auto attrHeader = table::attribute::decodeHeader(attrEntry);
BIOSStringTable biosStringTable(*stringTable);
auto attrName = biosStringTable.findString(attrHeader.stringHandle);
auto iter = std::find_if(
biosAttributes.begin(), biosAttributes.end(),
[&attrName](const auto& attr) { return attr->name == attrName; });
if (iter == biosAttributes.end())
{
return PLDM_ERROR;
}
(*iter)->setAttrValueOnDbus(attrValueEntry, attrEntry, biosStringTable);
}
catch (const std::exception& e)
{
std::cerr << "Set attribute value error: " << e.what() << std::endl;
return PLDM_ERROR;
}
setBIOSTable(PLDM_BIOS_ATTR_VAL_TABLE, *destTable, updateBaseBIOSTable);
return PLDM_SUCCESS;
}
void BIOSConfig::removeTables()
{
try
{
fs::remove(tableDir / stringTableFile);
fs::remove(tableDir / attrTableFile);
fs::remove(tableDir / attrValueTableFile);
}
catch (const std::exception& e)
{
std::cerr << "Remove the tables error: " << e.what() << std::endl;
}
}
void BIOSConfig::processBiosAttrChangeNotification(
const DbusChObjProperties& chProperties, uint32_t biosAttrIndex)
{
const auto& dBusMap = biosAttributes[biosAttrIndex]->getDBusMap();
const auto& propertyName = dBusMap->propertyName;
const auto& attrName = biosAttributes[biosAttrIndex]->name;
const auto it = chProperties.find(propertyName);
if (it == chProperties.end())
{
return;
}
PropertyValue newPropVal = it->second;
auto stringTable = getBIOSTable(PLDM_BIOS_STRING_TABLE);
if (!stringTable.has_value())
{
std::cerr << "BIOS string table unavailable\n";
return;
}
BIOSStringTable biosStringTable(*stringTable);
uint16_t attrNameHdl{};
try
{
attrNameHdl = biosStringTable.findHandle(attrName);
}
catch (std::invalid_argument& e)
{
std::cerr << "Could not find handle for BIOS string, ATTRIBUTE="
<< attrName.c_str() << "\n";
return;
}
auto attrTable = getBIOSTable(PLDM_BIOS_ATTR_TABLE);
if (!attrTable.has_value())
{
std::cerr << "Attribute table not present\n";
return;
}
const struct pldm_bios_attr_table_entry* tableEntry =
table::attribute::findByStringHandle(*attrTable, attrNameHdl);
if (tableEntry == nullptr)
{
std::cerr << "Attribute not found in attribute table, name= "
<< attrName.c_str() << "name handle=" << attrNameHdl << "\n";
return;
}
auto [attrHdl, attrType, stringHdl] =
table::attribute::decodeHeader(tableEntry);
auto attrValueSrcTable = getBIOSTable(PLDM_BIOS_ATTR_VAL_TABLE);
if (!attrValueSrcTable.has_value())
{
std::cerr << "Attribute value table not present\n";
return;
}
Table newValue;
auto rc = biosAttributes[biosAttrIndex]->updateAttrVal(
newValue, attrHdl, attrType, newPropVal);
if (rc != PLDM_SUCCESS)
{
std::cerr << "Could not update the attribute value table for attribute "
"handle="
<< attrHdl << " and type=" << (uint32_t)attrType << "\n";
return;
}
auto destTable = table::attribute_value::updateTable(
*attrValueSrcTable, newValue.data(), newValue.size());
if (destTable.has_value())
{
storeTable(tableDir / attrValueTableFile, *destTable);
}
rc = setAttrValue(newValue.data(), newValue.size());
if (rc != PLDM_SUCCESS)
{
std::cerr << "could not setAttrValue on base bios table and dbus \n";
}
}
uint16_t BIOSConfig::findAttrHandle(const std::string& attrName)
{
auto stringTable = getBIOSTable(PLDM_BIOS_STRING_TABLE);
auto attrTable = getBIOSTable(PLDM_BIOS_ATTR_TABLE);
BIOSStringTable biosStringTable(*stringTable);
pldm::bios::utils::BIOSTableIter<PLDM_BIOS_ATTR_TABLE> attrTableIter(
attrTable->data(), attrTable->size());
auto stringHandle = biosStringTable.findHandle(attrName);
for (auto entry : pldm::bios::utils::BIOSTableIter<PLDM_BIOS_ATTR_TABLE>(
attrTable->data(), attrTable->size()))
{
auto header = table::attribute::decodeHeader(entry);
if (header.stringHandle == stringHandle)
{
return header.attrHandle;
}
}
throw std::invalid_argument("Unknow attribute Name");
}
void BIOSConfig::constructPendingAttribute(
const PendingAttributes& pendingAttributes)
{
std::vector<uint16_t> listOfHandles{};
for (auto& attribute : pendingAttributes)
{
std::string attributeName = attribute.first;
auto& [attributeType, attributevalue] = attribute.second;
auto iter = std::find_if(biosAttributes.begin(), biosAttributes.end(),
[&attributeName](const auto& attr) {
return attr->name == attributeName;
});
if (iter == biosAttributes.end())
{
std::cerr << "Wrong attribute name, attributeName = "
<< attributeName << std::endl;
continue;
}
Table attrValueEntry(sizeof(pldm_bios_attr_val_table_entry), 0);
auto entry = reinterpret_cast<pldm_bios_attr_val_table_entry*>(
attrValueEntry.data());
auto handler = findAttrHandle(attributeName);
auto type =
BIOSConfigManager::convertAttributeTypeFromString(attributeType);
if (type != BIOSConfigManager::AttributeType::Enumeration &&
type != BIOSConfigManager::AttributeType::String &&
type != BIOSConfigManager::AttributeType::Integer)
{
std::cerr << "Attribute type not supported, attributeType = "
<< attributeType << std::endl;
continue;
}
entry->attr_handle = htole16(handler);
listOfHandles.emplace_back(htole16(handler));
(*iter)->generateAttributeEntry(attributevalue, attrValueEntry);
setAttrValue(attrValueEntry.data(), attrValueEntry.size(), false);
}
if (listOfHandles.size())
{
#ifdef OEM_IBM
auto rc = pldm::responder::platform::sendBiosAttributeUpdateEvent(
fd, eid, requester, listOfHandles);
if (rc != PLDM_SUCCESS)
{
return;
}
#endif
updateBaseBIOSTableProperty();
}
}
void BIOSConfig::listenPendingAttributes()
{
constexpr auto objPath = "/xyz/openbmc_project/bios_config/manager";
constexpr auto objInterface = "xyz.openbmc_project.BIOSConfig.Manager";
using namespace sdbusplus::bus::match::rules;
auto updateBIOSMatch = std::make_unique<sdbusplus::bus::match::match>(
pldm::utils::DBusHandler::getBus(),
propertiesChanged(objPath, objInterface),
[this](sdbusplus::message::message& msg) {
constexpr auto propertyName = "PendingAttributes";
using Value =
std::variant<std::string, PendingAttributes, BaseBIOSTable>;
using Properties = std::map<DbusProp, Value>;
Properties props{};
std::string intf;
msg.read(intf, props);
auto valPropMap = props.find(propertyName);
if (valPropMap == props.end())
{
return;
}
PendingAttributes pendingAttributes =
std::get<PendingAttributes>(valPropMap->second);
this->constructPendingAttribute(pendingAttributes);
});
biosAttrMatch.emplace_back(std::move(updateBIOSMatch));
}
} // namespace bios
} // namespace responder
} // namespace pldm