blob: b1f16b147055535caa57a84853e264084de2d667 [file] [log] [blame]
#include "config.h"
#include "reader_impl.hpp"
#include "ibm_vpd_utils.hpp"
#include <algorithm>
#include <com/ibm/VPD/error.hpp>
#include <map>
#include <phosphor-logging/elog-errors.hpp>
#include <vector>
#include <xyz/openbmc_project/Common/error.hpp>
#ifdef ManagerTest
#include "reader_test.hpp"
#endif
namespace openpower
{
namespace vpd
{
namespace manager
{
namespace reader
{
using namespace phosphor::logging;
using namespace openpower::vpd::inventory;
using namespace openpower::vpd::constants;
using namespace openpower::vpd::utils::interface;
using InvalidArgument =
sdbusplus::xyz::openbmc_project::Common::Error::InvalidArgument;
using Argument = xyz::openbmc_project::Common::InvalidArgument;
using LocationNotFound = sdbusplus::com::ibm::VPD::Error::LocationNotFound;
bool ReaderImpl::isValidLocationCode(const LocationCode& locationCode) const
{
if ((locationCode.length() < UNEXP_LOCATION_CODE_MIN_LENGTH) ||
(locationCode[0] != 'U') ||
((locationCode.find("fcs", 1, 3) == std::string::npos) &&
(locationCode.find("mts", 1, 3) == std::string::npos)))
{
return false;
}
return true;
}
LocationCode ReaderImpl::getExpandedLocationCode(
const LocationCode& locationCode, const NodeNumber& nodeNumber,
const LocationCodeMap& frusLocationCode) const
{
// unused at this moment. Hence to avoid warnings
(void)nodeNumber;
if (!isValidLocationCode(locationCode))
{
// argument is not valid
elog<InvalidArgument>(Argument::ARGUMENT_NAME("LOCATIONCODE"),
Argument::ARGUMENT_VALUE(locationCode.c_str()));
}
auto iterator = frusLocationCode.find(locationCode);
if (iterator == frusLocationCode.end())
{
// TODO: Implementation of error logic till then throwing invalid
// argument
// the location code was not found in the system
// elog<LocationNotFound>();
elog<InvalidArgument>(Argument::ARGUMENT_NAME("LOCATIONCODE"),
Argument::ARGUMENT_VALUE(locationCode.c_str()));
}
std::string expandedLocationCode{};
#ifndef ManagerTest
utility utilObj;
#endif
expandedLocationCode = utilObj.readBusProperty(
iterator->second, IBM_LOCATION_CODE_INF, "LocationCode");
return expandedLocationCode;
}
ListOfPaths
ReaderImpl::getFrusAtLocation(const LocationCode& locationCode,
const NodeNumber& nodeNumber,
const LocationCodeMap& frusLocationCode) const
{
// unused at this moment, to avoid compilation warning
(void)nodeNumber;
// TODO:Implementation related to node number
if (!isValidLocationCode(locationCode))
{
// argument is not valid
elog<InvalidArgument>(Argument::ARGUMENT_NAME("LOCATIONCODE"),
Argument::ARGUMENT_VALUE(locationCode.c_str()));
}
auto range = frusLocationCode.equal_range(locationCode);
if (range.first == frusLocationCode.end())
{
// TODO: Implementation of error logic till then throwing invalid
// argument
// the location code was not found in the system
// elog<LocationNotFound>();
elog<InvalidArgument>(Argument::ARGUMENT_NAME("LOCATIONCODE"),
Argument::ARGUMENT_VALUE(locationCode.c_str()));
}
ListOfPaths inventoryPaths;
for_each(range.first, range.second,
[&inventoryPaths](
const inventory::LocationCodeMap::value_type& mappedItem) {
inventoryPaths.push_back(INVENTORY_PATH + mappedItem.second);
});
return inventoryPaths;
}
std::tuple<LocationCode, NodeNumber>
ReaderImpl::getCollapsedLocationCode(const LocationCode& locationCode) const
{
// Location code should always start with U and fulfil minimum length
// criteria.
if (locationCode[0] != 'U' ||
locationCode.length() < EXP_LOCATIN_CODE_MIN_LENGTH)
{
elog<InvalidArgument>(Argument::ARGUMENT_NAME("LOCATIONCODE"),
Argument::ARGUMENT_VALUE(locationCode.c_str()));
}
std::string fc{};
#ifndef ManagerTest
utility utilObj;
#endif
fc = utilObj.readBusProperty(SYSTEM_OBJECT, "com.ibm.ipzvpd.VCEN", "FC");
// get the first part of expanded location code to check for FC or TM
std::string firstKeyword = locationCode.substr(1, 4);
LocationCode unexpandedLocationCode{};
NodeNumber nodeNummber = INVALID_NODE_NUMBER;
// check if this value matches the value of FC kwd
if (fc.substr(0, 4) ==
firstKeyword) // implies this is Ufcs format location code
{
// period(.) should be there in expanded location code to seggregate FC,
// Node number and SE values.
size_t nodeStartPos = locationCode.find('.');
if (nodeStartPos == std::string::npos)
{
elog<InvalidArgument>(
Argument::ARGUMENT_NAME("LOCATIONCODE"),
Argument::ARGUMENT_VALUE(locationCode.c_str()));
}
// second period(.) should be there to end the node details in non
// system location code
size_t nodeEndPos = locationCode.find('.', nodeStartPos + 1);
if (nodeEndPos == std::string::npos)
{
elog<InvalidArgument>(
Argument::ARGUMENT_NAME("LOCATIONCODE"),
Argument::ARGUMENT_VALUE(locationCode.c_str()));
}
// skip 3 for '.ND'
nodeNummber = std::stoi(locationCode.substr(
nodeStartPos + 3, (nodeEndPos - nodeStartPos - 3)));
// confirm if there are other details apart FC, Node number and SE in
// location code
if (locationCode.length() > EXP_LOCATIN_CODE_MIN_LENGTH)
{
unexpandedLocationCode =
locationCode[0] + (std::string) "fcs" +
locationCode.substr(nodeEndPos + 1 + SE_KWD_LENGTH,
std::string::npos);
}
else
{
unexpandedLocationCode = "Ufcs";
}
}
else
{
std::string tm{};
// read TM kwd value
tm =
utilObj.readBusProperty(SYSTEM_OBJECT, "com.ibm.ipzvpd.VSYS", "TM");
;
// check if the substr matches to TM kwd
if (tm.substr(0, 4) ==
firstKeyword) // implies this is Umts format of location code
{
// system location code will not have any other details and node
// number
unexpandedLocationCode = "Umts";
}
// it does not belong to either "fcs" or "mts"
else
{
elog<InvalidArgument>(
Argument::ARGUMENT_NAME("LOCATIONCODE"),
Argument::ARGUMENT_VALUE(locationCode.c_str()));
}
}
return std::make_tuple(unexpandedLocationCode, nodeNummber);
}
ListOfPaths ReaderImpl::getFRUsByExpandedLocationCode(
const inventory::LocationCode& locationCode,
const inventory::LocationCodeMap& frusLocationCode) const
{
std::tuple<LocationCode, NodeNumber> locationAndNodePair =
getCollapsedLocationCode(locationCode);
return getFrusAtLocation(std::get<0>(locationAndNodePair),
std::get<1>(locationAndNodePair),
frusLocationCode);
}
} // namespace reader
} // namespace manager
} // namespace vpd
} // namespace openpower