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sensordatahandler.cpp
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sensordatahandler.cpp
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#include "sensordatahandler.hpp"
#include "sensorhandler.hpp"
#include <ipmid/types.hpp>
#include <ipmid/utils.hpp>
#include <sdbusplus/message/types.hpp>
#include <xyz/openbmc_project/Common/error.hpp>
#include <bitset>
#include <filesystem>
#include <optional>
namespace ipmi
{
namespace sensor
{
using namespace phosphor::logging;
using InternalFailure =
sdbusplus::error::xyz::openbmc_project::common::InternalFailure;
AssertionSet getAssertionSet(const SetSensorReadingReq& cmdData)
{
Assertion assertionStates =
(static_cast<Assertion>(cmdData.assertOffset8_14)) << 8 |
cmdData.assertOffset0_7;
Deassertion deassertionStates =
(static_cast<Deassertion>(cmdData.deassertOffset8_14)) << 8 |
cmdData.deassertOffset0_7;
return std::make_pair(assertionStates, deassertionStates);
}
ipmi_ret_t updateToDbus(IpmiUpdateData& msg)
{
sdbusplus::bus_t bus{ipmid_get_sd_bus_connection()};
try
{
auto serviceResponseMsg = bus.call(msg);
}
catch (const InternalFailure& e)
{
lg2::error("Error in D-Bus call: {ERROR}", "ERROR", e);
commit<InternalFailure>();
return IPMI_CC_UNSPECIFIED_ERROR;
}
return IPMI_CC_OK;
}
namespace get
{
SensorName nameParentLeaf(const Info& sensorInfo)
{
const auto pos = sensorInfo.sensorPath.find_last_of('/');
const auto leaf = sensorInfo.sensorPath.substr(pos + 1);
const auto remaining = sensorInfo.sensorPath.substr(0, pos);
const auto parentPos = remaining.find_last_of('/');
auto parent = remaining.substr(parentPos + 1);
parent += "_" + leaf;
return parent;
}
GetSensorResponse mapDbusToAssertion(const Info& sensorInfo,
const InstancePath& path,
const DbusInterface& interface)
{
sdbusplus::bus_t bus{ipmid_get_sd_bus_connection()};
GetSensorResponse response{};
enableScanning(&response);
auto service = ipmi::getService(bus, interface, path);
const auto& interfaceList = sensorInfo.propertyInterfaces;
for (const auto& interface : interfaceList)
{
for (const auto& property : interface.second)
{
auto propValue = ipmi::getDbusProperty(
bus, service, path, interface.first, property.first);
for (const auto& value : std::get<OffsetValueMap>(property.second))
{
if (propValue == value.second.assert)
{
setOffset(value.first, &response);
break;
}
}
}
}
return response;
}
GetSensorResponse mapDbusToEventdata2(const Info& sensorInfo)
{
sdbusplus::bus_t bus{ipmid_get_sd_bus_connection()};
GetSensorResponse response{};
enableScanning(&response);
auto service = ipmi::getService(bus, sensorInfo.sensorInterface,
sensorInfo.sensorPath);
const auto& interfaceList = sensorInfo.propertyInterfaces;
for (const auto& interface : interfaceList)
{
for (const auto& property : interface.second)
{
auto propValue =
ipmi::getDbusProperty(bus, service, sensorInfo.sensorPath,
interface.first, property.first);
for (const auto& value : std::get<OffsetValueMap>(property.second))
{
if (propValue == value.second.assert)
{
setReading(value.first, &response);
break;
}
}
}
}
return response;
}
#ifndef FEATURE_SENSORS_CACHE
GetSensorResponse assertion(const Info& sensorInfo)
{
return mapDbusToAssertion(sensorInfo, sensorInfo.sensorPath,
sensorInfo.sensorInterface);
}
GetSensorResponse eventdata2(const Info& sensorInfo)
{
return mapDbusToEventdata2(sensorInfo);
}
#else
std::optional<GetSensorResponse> assertion(uint8_t id, const Info& sensorInfo,
const PropertyMap& /*properties*/)
{
// The assertion may contain multiple properties
// So we have to get the properties from DBus anyway
auto response = mapDbusToAssertion(sensorInfo, sensorInfo.sensorPath,
sensorInfo.sensorInterface);
if (!sensorCacheMap[id].has_value())
{
sensorCacheMap[id] = SensorData{};
}
sensorCacheMap[id]->response = response;
return response;
}
std::optional<GetSensorResponse> eventdata2(uint8_t id, const Info& sensorInfo,
const PropertyMap& /*properties*/)
{
// The eventdata2 may contain multiple properties
// So we have to get the properties from DBus anyway
auto response = mapDbusToEventdata2(sensorInfo);
if (!sensorCacheMap[id].has_value())
{
sensorCacheMap[id] = SensorData{};
}
sensorCacheMap[id]->response = response;
return response;
}
#endif // FEATURE_SENSORS_CACHE
} // namespace get
namespace set
{
IpmiUpdateData makeDbusMsg(const std::string& updateInterface,
const std::string& sensorPath,
const std::string& command,
const std::string& sensorInterface)
{
sdbusplus::bus_t bus{ipmid_get_sd_bus_connection()};
using namespace std::string_literals;
auto dbusService = getService(bus, sensorInterface, sensorPath);
return bus.new_method_call(dbusService.c_str(), sensorPath.c_str(),
updateInterface.c_str(), command.c_str());
}
ipmi_ret_t eventdata(const SetSensorReadingReq&, const Info& sensorInfo,
uint8_t data)
{
auto msg =
makeDbusMsg("org.freedesktop.DBus.Properties", sensorInfo.sensorPath,
"Set", sensorInfo.sensorInterface);
const auto& interface = sensorInfo.propertyInterfaces.begin();
msg.append(interface->first);
for (const auto& property : interface->second)
{
msg.append(property.first);
const auto& iter = std::get<OffsetValueMap>(property.second).find(data);
if (iter == std::get<OffsetValueMap>(property.second).end())
{
lg2::error("Invalid event data");
return IPMI_CC_PARM_OUT_OF_RANGE;
}
msg.append(iter->second.assert);
}
return updateToDbus(msg);
}
ipmi_ret_t assertion(const SetSensorReadingReq& cmdData, const Info& sensorInfo)
{
std::bitset<16> assertionSet(getAssertionSet(cmdData).first);
std::bitset<16> deassertionSet(getAssertionSet(cmdData).second);
auto bothSet = assertionSet ^ deassertionSet;
const auto& interface = sensorInfo.propertyInterfaces.begin();
for (const auto& property : interface->second)
{
std::optional<Value> tmp;
for (const auto& value : std::get<OffsetValueMap>(property.second))
{
if (bothSet.size() <= value.first || !bothSet.test(value.first))
{
// A BIOS shouldn't do this but ignore if they do.
continue;
}
if (assertionSet.test(value.first))
{
tmp = value.second.assert;
break;
}
if (deassertionSet.test(value.first))
{
tmp = value.second.deassert;
break;
}
}
if (tmp)
{
auto msg = makeDbusMsg("org.freedesktop.DBus.Properties",
sensorInfo.sensorPath, "Set",
sensorInfo.sensorInterface);
msg.append(interface->first);
msg.append(property.first);
msg.append(*tmp);
auto rc = updateToDbus(msg);
if (rc)
{
return rc;
}
}
}
return IPMI_CC_OK;
}
} // namespace set
namespace notify
{
IpmiUpdateData makeDbusMsg(const std::string& updateInterface,
const std::string&, const std::string& command,
const std::string&)
{
sdbusplus::bus_t bus{ipmid_get_sd_bus_connection()};
using namespace std::string_literals;
static const auto dbusPath = "/xyz/openbmc_project/inventory"s;
std::string dbusService = ipmi::getService(bus, updateInterface, dbusPath);
return bus.new_method_call(dbusService.c_str(), dbusPath.c_str(),
updateInterface.c_str(), command.c_str());
}
ipmi_ret_t assertion(const SetSensorReadingReq& cmdData, const Info& sensorInfo)
{
auto msg = makeDbusMsg(sensorInfo.sensorInterface, sensorInfo.sensorPath,
"Notify", sensorInfo.sensorInterface);
std::bitset<16> assertionSet(getAssertionSet(cmdData).first);
std::bitset<16> deassertionSet(getAssertionSet(cmdData).second);
ipmi::sensor::ObjectMap objects;
ipmi::sensor::InterfaceMap interfaces;
for (const auto& interface : sensorInfo.propertyInterfaces)
{
// An interface with no properties - It is possible that the sensor
// object on DBUS implements a DBUS interface with no properties.
// Make sure we add the interface to the list if interfaces on the
// object with an empty property map.
if (interface.second.empty())
{
interfaces.emplace(interface.first, ipmi::sensor::PropertyMap{});
continue;
}
// For a property like functional state the result will be
// calculated based on the true value of all conditions.
for (const auto& property : interface.second)
{
ipmi::sensor::PropertyMap props;
bool valid = false;
auto result = true;
for (const auto& value : std::get<OffsetValueMap>(property.second))
{
if (assertionSet.test(value.first))
{
// Skip update if skipOn is ASSERT
if (SkipAssertion::ASSERT == value.second.skip)
{
return IPMI_CC_OK;
}
result = result && std::get<bool>(value.second.assert);
valid = true;
}
else if (deassertionSet.test(value.first))
{
// Skip update if skipOn is DEASSERT
if (SkipAssertion::DEASSERT == value.second.skip)
{
return IPMI_CC_OK;
}
result = result && std::get<bool>(value.second.deassert);
valid = true;
}
}
for (const auto& value :
std::get<PreReqOffsetValueMap>(property.second))
{
if (assertionSet.test(value.first))
{
result = result && std::get<bool>(value.second.assert);
}
else if (deassertionSet.test(value.first))
{
result = result && std::get<bool>(value.second.deassert);
}
}
if (valid)
{
props.emplace(property.first, result);
interfaces.emplace(interface.first, std::move(props));
}
}
}
objects.emplace(sensorInfo.sensorPath, std::move(interfaces));
msg.append(std::move(objects));
return updateToDbus(msg);
}
} // namespace notify
namespace inventory
{
namespace get
{
#ifndef FEATURE_SENSORS_CACHE
GetSensorResponse assertion(const Info& sensorInfo)
{
namespace fs = std::filesystem;
fs::path path{ipmi::sensor::inventoryRoot};
path += sensorInfo.sensorPath;
return ipmi::sensor::get::mapDbusToAssertion(
sensorInfo, path.string(),
sensorInfo.propertyInterfaces.begin()->first);
}
#else
std::optional<GetSensorResponse> assertion(uint8_t id, const Info& sensorInfo,
const PropertyMap& /*properties*/)
{
// The assertion may contain multiple properties
// So we have to get the properties from DBus anyway
namespace fs = std::filesystem;
fs::path path{ipmi::sensor::inventoryRoot};
path += sensorInfo.sensorPath;
auto response = ipmi::sensor::get::mapDbusToAssertion(
sensorInfo, path.string(),
sensorInfo.propertyInterfaces.begin()->first);
if (!sensorCacheMap[id].has_value())
{
sensorCacheMap[id] = SensorData{};
}
sensorCacheMap[id]->response = response;
return response;
}
#endif
} // namespace get
} // namespace inventory
} // namespace sensor
} // namespace ipmi