blob: 3f5272f226bf42118e284c4424bd82a25c3152e2 [file] [log] [blame]
#include "bios_enum_attribute.hpp"
#include "common/utils.hpp"
#include <phosphor-logging/lg2.hpp>
#include <iostream>
PHOSPHOR_LOG2_USING;
using namespace pldm::utils;
namespace pldm
{
namespace responder
{
namespace bios
{
BIOSEnumAttribute::BIOSEnumAttribute(const Json& entry,
DBusHandler* const dbusHandler) :
BIOSAttribute(entry, dbusHandler)
{
std::string attrName = entry.at("attribute_name");
Json pv = entry.at("possible_values");
for (auto& val : pv)
{
possibleValues.emplace_back(val);
}
std::vector<std::string> defaultValues;
Json dv = entry.at("default_values");
for (auto& val : dv)
{
defaultValues.emplace_back(val);
}
Json vdn = entry.at("value_names");
for (auto& val : vdn)
{
valueDisplayNames.emplace_back(val);
}
assert(defaultValues.size() == 1);
defaultValue = defaultValues[0];
if (dBusMap.has_value())
{
auto dbusValues = entry.at("dbus").at("property_values");
buildValMap(dbusValues);
}
}
uint8_t BIOSEnumAttribute::getValueIndex(const std::string& value,
const std::vector<std::string>& pVs)
{
auto iter = std::find_if(pVs.begin(), pVs.end(),
[&value](const auto& v) { return v == value; });
if (iter == pVs.end())
{
throw std::invalid_argument("value must be one of possible value");
}
return iter - pVs.begin();
}
std::vector<uint16_t> BIOSEnumAttribute::getPossibleValuesHandle(
const BIOSStringTable& stringTable, const std::vector<std::string>& pVs)
{
std::vector<uint16_t> possibleValuesHandle;
for (const auto& pv : pVs)
{
auto handle = stringTable.findHandle(pv);
possibleValuesHandle.push_back(handle);
}
return possibleValuesHandle;
}
void BIOSEnumAttribute::buildValMap(const Json& dbusVals)
{
PropertyValue value;
size_t pos = 0;
for (auto it = dbusVals.begin(); it != dbusVals.end(); ++it, ++pos)
{
if (dBusMap->propertyType == "uint8_t")
{
value = static_cast<uint8_t>(it.value());
}
else if (dBusMap->propertyType == "uint16_t")
{
value = static_cast<uint16_t>(it.value());
}
else if (dBusMap->propertyType == "uint32_t")
{
value = static_cast<uint32_t>(it.value());
}
else if (dBusMap->propertyType == "uint64_t")
{
value = static_cast<uint64_t>(it.value());
}
else if (dBusMap->propertyType == "int16_t")
{
value = static_cast<int16_t>(it.value());
}
else if (dBusMap->propertyType == "int32_t")
{
value = static_cast<int32_t>(it.value());
}
else if (dBusMap->propertyType == "int64_t")
{
value = static_cast<int64_t>(it.value());
}
else if (dBusMap->propertyType == "bool")
{
value = static_cast<bool>(it.value());
}
else if (dBusMap->propertyType == "double")
{
value = static_cast<double>(it.value());
}
else if (dBusMap->propertyType == "string")
{
value = static_cast<std::string>(it.value());
}
else
{
error("Unknown D-Bus property type, TYPE={PROP_TYPE}", "PROP_TYPE",
dBusMap->propertyType);
throw std::invalid_argument("Unknown D-BUS property type");
}
valMap.emplace(value, possibleValues[pos]);
}
}
uint8_t BIOSEnumAttribute::getAttrValueIndex()
{
auto defaultValueIndex = getValueIndex(defaultValue, possibleValues);
if (!dBusMap.has_value())
{
return defaultValueIndex;
}
try
{
auto propValue = dbusHandler->getDbusPropertyVariant(
dBusMap->objectPath.c_str(), dBusMap->propertyName.c_str(),
dBusMap->interface.c_str());
auto iter = valMap.find(propValue);
if (iter == valMap.end())
{
return defaultValueIndex;
}
auto currentValue = iter->second;
return getValueIndex(currentValue, possibleValues);
}
catch (const std::exception&)
{
return defaultValueIndex;
}
}
uint8_t BIOSEnumAttribute::getAttrValueIndex(const PropertyValue& propValue)
{
try
{
return getValueIndex(std::get<std::string>(propValue), possibleValues);
}
catch (const std::exception&)
{
return getValueIndex(defaultValue, possibleValues);
}
}
void BIOSEnumAttribute::setAttrValueOnDbus(
const pldm_bios_attr_val_table_entry* attrValueEntry,
const pldm_bios_attr_table_entry* attrEntry,
const BIOSStringTable& stringTable)
{
if (!dBusMap.has_value())
{
return;
}
auto [pvHdls, _] = table::attribute::decodeEnumEntry(attrEntry);
auto currHdls = table::attribute_value::decodeEnumEntry(attrValueEntry);
assert(currHdls.size() == 1);
auto valueString = stringTable.findString(pvHdls[currHdls[0]]);
auto it = std::find_if(valMap.begin(), valMap.end(),
[&valueString](const auto& typePair) {
return typePair.second == valueString;
});
if (it == valMap.end())
{
return;
}
dbusHandler->setDbusProperty(*dBusMap, it->first);
}
void BIOSEnumAttribute::populateValueDisplayNamesMap(uint16_t attrHandle)
{
for (auto& vdn : valueDisplayNames)
{
valueDisplayNamesMap[attrHandle].push_back(vdn);
}
}
void BIOSEnumAttribute::constructEntry(
const BIOSStringTable& stringTable, Table& attrTable, Table& attrValueTable,
std::optional<std::variant<int64_t, std::string>> optAttributeValue)
{
auto possibleValuesHandle = getPossibleValuesHandle(stringTable,
possibleValues);
std::vector<uint8_t> defaultIndices(1, 0);
defaultIndices[0] = getValueIndex(defaultValue, possibleValues);
pldm_bios_table_attr_entry_enum_info info = {
stringTable.findHandle(name), readOnly,
(uint8_t)possibleValuesHandle.size(), possibleValuesHandle.data(),
(uint8_t)defaultIndices.size(), defaultIndices.data()};
auto attrTableEntry = table::attribute::constructEnumEntry(attrTable,
&info);
auto [attrHandle, attrType,
_] = table::attribute::decodeHeader(attrTableEntry);
populateValueDisplayNamesMap(attrHandle);
std::vector<uint8_t> currValueIndices(1, 0);
if (optAttributeValue.has_value())
{
auto attributeValue = optAttributeValue.value();
if (attributeValue.index() == 1)
{
auto currValue = std::get<std::string>(attributeValue);
currValueIndices[0] = getValueIndex(currValue, possibleValues);
}
else
{
currValueIndices[0] = getAttrValueIndex();
}
}
else
{
currValueIndices[0] = getAttrValueIndex();
}
table::attribute_value::constructEnumEntry(attrValueTable, attrHandle,
attrType, currValueIndices);
}
int BIOSEnumAttribute::updateAttrVal(Table& newValue, uint16_t attrHdl,
uint8_t attrType,
const PropertyValue& newPropVal)
{
auto iter = valMap.find(newPropVal);
if (iter == valMap.end())
{
error("Could not find index for new BIOS enum, value={PROP_VAL}",
"PROP_VAL", std::get<std::string>(newPropVal));
return PLDM_ERROR;
}
auto currentValue = iter->second;
std::vector<uint8_t> handleIndices{
getValueIndex(currentValue, possibleValues)};
table::attribute_value::constructEnumEntry(newValue, attrHdl, attrType,
handleIndices);
return PLDM_SUCCESS;
}
void BIOSEnumAttribute::generateAttributeEntry(
const std::variant<int64_t, std::string>& attributevalue,
Table& attrValueEntry)
{
attrValueEntry.resize(sizeof(pldm_bios_attr_val_table_entry) + 1);
auto entry = reinterpret_cast<pldm_bios_attr_val_table_entry*>(
attrValueEntry.data());
std::string value = std::get<std::string>(attributevalue);
entry->attr_type = 0;
entry->value[0] = 1; // number of current values, default 1
entry->value[1] = getAttrValueIndex(value);
}
} // namespace bios
} // namespace responder
} // namespace pldm