blob: 3f3e073d2788ada47a9af8cd859beb61fbf7599d [file] [log] [blame]
// This file was autogenerated. Do not edit!
// See elog-gen.py for more details
#pragma once
#include <string>
#include <tuple>
#include <type_traits>
#include <sdbusplus/exception.hpp>
#include <phosphor-logging/log.hpp>
#include <phosphor-logging/elog.hpp>
namespace sdbusplus
{
namespace xyz
{
namespace openbmc_project
{
namespace Power
{
namespace Fault
{
namespace Error
{
struct PowerOnFailure;
} // namespace Error
} // namespace Fault
} // namespace Power
} // namespace openbmc_project
} // namespace xyz
} // namespace sdbusplus
namespace sdbusplus
{
namespace xyz
{
namespace openbmc_project
{
namespace Power
{
namespace Fault
{
namespace Error
{
struct PowerSequencerFault;
} // namespace Error
} // namespace Fault
} // namespace Power
} // namespace openbmc_project
} // namespace xyz
} // namespace sdbusplus
namespace sdbusplus
{
namespace xyz
{
namespace openbmc_project
{
namespace Common
{
namespace Callout
{
namespace Error
{
struct GPIO;
} // namespace Error
} // namespace Callout
} // namespace Common
} // namespace openbmc_project
} // namespace xyz
} // namespace sdbusplus
namespace sdbusplus
{
namespace xyz
{
namespace openbmc_project
{
namespace Common
{
namespace Callout
{
namespace Error
{
struct Inventory;
} // namespace Error
} // namespace Callout
} // namespace Common
} // namespace openbmc_project
} // namespace xyz
} // namespace sdbusplus
namespace sdbusplus
{
namespace xyz
{
namespace openbmc_project
{
namespace Common
{
namespace Callout
{
namespace Error
{
struct IIC;
} // namespace Error
} // namespace Callout
} // namespace Common
} // namespace openbmc_project
} // namespace xyz
} // namespace sdbusplus
namespace sdbusplus
{
namespace xyz
{
namespace openbmc_project
{
namespace Power
{
namespace Fault
{
namespace Error
{
struct PowerSequencerPGOODFault;
} // namespace Error
} // namespace Fault
} // namespace Power
} // namespace openbmc_project
} // namespace xyz
} // namespace sdbusplus
namespace sdbusplus
{
namespace xyz
{
namespace openbmc_project
{
namespace Power
{
namespace Fault
{
namespace Error
{
struct PowerSupplyShouldBeOn;
} // namespace Error
} // namespace Fault
} // namespace Power
} // namespace openbmc_project
} // namespace xyz
} // namespace sdbusplus
namespace sdbusplus
{
namespace xyz
{
namespace openbmc_project
{
namespace Common
{
namespace Callout
{
namespace Error
{
struct Device;
} // namespace Error
} // namespace Callout
} // namespace Common
} // namespace openbmc_project
} // namespace xyz
} // namespace sdbusplus
namespace sdbusplus
{
namespace xyz
{
namespace openbmc_project
{
namespace Power
{
namespace Fault
{
namespace Error
{
struct PowerSupplyUnderVoltageFault;
} // namespace Error
} // namespace Fault
} // namespace Power
} // namespace openbmc_project
} // namespace xyz
} // namespace sdbusplus
namespace sdbusplus
{
namespace xyz
{
namespace openbmc_project
{
namespace Power
{
namespace Fault
{
namespace Error
{
struct PowerSupplyFanFault;
} // namespace Error
} // namespace Fault
} // namespace Power
} // namespace openbmc_project
} // namespace xyz
} // namespace sdbusplus
namespace sdbusplus
{
namespace xyz
{
namespace openbmc_project
{
namespace Power
{
namespace Fault
{
namespace Error
{
struct PowerSupplyInputFault;
} // namespace Error
} // namespace Fault
} // namespace Power
} // namespace openbmc_project
} // namespace xyz
} // namespace sdbusplus
namespace sdbusplus
{
namespace xyz
{
namespace openbmc_project
{
namespace Power
{
namespace Fault
{
namespace Error
{
struct GPUPowerFault;
} // namespace Error
} // namespace Fault
} // namespace Power
} // namespace openbmc_project
} // namespace xyz
} // namespace sdbusplus
namespace sdbusplus
{
namespace xyz
{
namespace openbmc_project
{
namespace Power
{
namespace Fault
{
namespace Error
{
struct PowerSupplyOutputOvervoltage;
} // namespace Error
} // namespace Fault
} // namespace Power
} // namespace openbmc_project
} // namespace xyz
} // namespace sdbusplus
namespace sdbusplus
{
namespace xyz
{
namespace openbmc_project
{
namespace Power
{
namespace Fault
{
namespace Error
{
struct PowerSupplyOutputOvercurrent;
} // namespace Error
} // namespace Fault
} // namespace Power
} // namespace openbmc_project
} // namespace xyz
} // namespace sdbusplus
namespace sdbusplus
{
namespace xyz
{
namespace openbmc_project
{
namespace Power
{
namespace Fault
{
namespace Error
{
struct GPUOverTemp;
} // namespace Error
} // namespace Fault
} // namespace Power
} // namespace openbmc_project
} // namespace xyz
} // namespace sdbusplus
namespace sdbusplus
{
namespace xyz
{
namespace openbmc_project
{
namespace Common
{
namespace Callout
{
namespace Error
{
struct IPMISensor;
} // namespace Error
} // namespace Callout
} // namespace Common
} // namespace openbmc_project
} // namespace xyz
} // namespace sdbusplus
namespace sdbusplus
{
namespace xyz
{
namespace openbmc_project
{
namespace Power
{
namespace Fault
{
namespace Error
{
struct PowerSequencerVoltageFault;
} // namespace Error
} // namespace Fault
} // namespace Power
} // namespace openbmc_project
} // namespace xyz
} // namespace sdbusplus
namespace sdbusplus
{
namespace xyz
{
namespace openbmc_project
{
namespace Power
{
namespace Fault
{
namespace Error
{
struct Shutdown;
} // namespace Error
} // namespace Fault
} // namespace Power
} // namespace openbmc_project
} // namespace xyz
} // namespace sdbusplus
namespace phosphor
{
namespace logging
{
namespace xyz
{
namespace openbmc_project
{
namespace Common
{
namespace Callout
{
namespace _Device
{
struct CALLOUT_ERRNO
{
static constexpr auto str = "CALLOUT_ERRNO=%d";
static constexpr auto str_short = "CALLOUT_ERRNO";
using type = std::tuple<std::decay_t<decltype(str)>,int32_t>;
explicit constexpr CALLOUT_ERRNO(int32_t a) : _entry(entry(str, a)) {};
type _entry;
};
struct CALLOUT_DEVICE_PATH
{
static constexpr auto str = "CALLOUT_DEVICE_PATH=%s";
static constexpr auto str_short = "CALLOUT_DEVICE_PATH";
using type = std::tuple<std::decay_t<decltype(str)>,const char*>;
explicit constexpr CALLOUT_DEVICE_PATH(const char* a) : _entry(entry(str, a)) {};
type _entry;
};
} // namespace _Device
struct Device
{
static constexpr auto L = level::ERR;
using CALLOUT_ERRNO = _Device::CALLOUT_ERRNO;
using CALLOUT_DEVICE_PATH = _Device::CALLOUT_DEVICE_PATH;
using metadata_types = std::tuple<CALLOUT_ERRNO, CALLOUT_DEVICE_PATH>;
};
} // namespace Callout
} // namespace Common
} // namespace openbmc_project
} // namespace xyz
namespace details
{
template <>
struct map_exception_type<sdbusplus::xyz::openbmc_project::Common::Callout::Error::Device>
{
using type = xyz::openbmc_project::Common::Callout::Device;
};
}
namespace xyz
{
namespace openbmc_project
{
namespace Common
{
namespace Callout
{
namespace _GPIO
{
struct CALLOUT_GPIO_NUM
{
static constexpr auto str = "CALLOUT_GPIO_NUM=%u";
static constexpr auto str_short = "CALLOUT_GPIO_NUM";
using type = std::tuple<std::decay_t<decltype(str)>,uint32_t>;
explicit constexpr CALLOUT_GPIO_NUM(uint32_t a) : _entry(entry(str, a)) {};
type _entry;
};
} // namespace _GPIO
struct GPIO
{
static constexpr auto L = level::ERR;
using CALLOUT_GPIO_NUM = _GPIO::CALLOUT_GPIO_NUM;
using CALLOUT_ERRNO = xyz::openbmc_project::Common::Callout::Device::CALLOUT_ERRNO;
using CALLOUT_DEVICE_PATH = xyz::openbmc_project::Common::Callout::Device::CALLOUT_DEVICE_PATH;
using metadata_types = std::tuple<CALLOUT_GPIO_NUM, CALLOUT_ERRNO, CALLOUT_DEVICE_PATH>;
};
} // namespace Callout
} // namespace Common
} // namespace openbmc_project
} // namespace xyz
namespace details
{
template <>
struct map_exception_type<sdbusplus::xyz::openbmc_project::Common::Callout::Error::GPIO>
{
using type = xyz::openbmc_project::Common::Callout::GPIO;
};
}
namespace xyz
{
namespace openbmc_project
{
namespace Common
{
namespace Callout
{
namespace _IIC
{
struct CALLOUT_IIC_BUS
{
static constexpr auto str = "CALLOUT_IIC_BUS=%s";
static constexpr auto str_short = "CALLOUT_IIC_BUS";
using type = std::tuple<std::decay_t<decltype(str)>,const char*>;
explicit constexpr CALLOUT_IIC_BUS(const char* a) : _entry(entry(str, a)) {};
type _entry;
};
struct CALLOUT_IIC_ADDR
{
static constexpr auto str = "CALLOUT_IIC_ADDR=0x%hx";
static constexpr auto str_short = "CALLOUT_IIC_ADDR";
using type = std::tuple<std::decay_t<decltype(str)>,uint16_t>;
explicit constexpr CALLOUT_IIC_ADDR(uint16_t a) : _entry(entry(str, a)) {};
type _entry;
};
} // namespace _IIC
struct IIC
{
static constexpr auto L = level::ERR;
using CALLOUT_IIC_BUS = _IIC::CALLOUT_IIC_BUS;
using CALLOUT_IIC_ADDR = _IIC::CALLOUT_IIC_ADDR;
using CALLOUT_ERRNO = xyz::openbmc_project::Common::Callout::Device::CALLOUT_ERRNO;
using CALLOUT_DEVICE_PATH = xyz::openbmc_project::Common::Callout::Device::CALLOUT_DEVICE_PATH;
using metadata_types = std::tuple<CALLOUT_IIC_BUS, CALLOUT_IIC_ADDR, CALLOUT_ERRNO, CALLOUT_DEVICE_PATH>;
};
} // namespace Callout
} // namespace Common
} // namespace openbmc_project
} // namespace xyz
namespace details
{
template <>
struct map_exception_type<sdbusplus::xyz::openbmc_project::Common::Callout::Error::IIC>
{
using type = xyz::openbmc_project::Common::Callout::IIC;
};
}
namespace xyz
{
namespace openbmc_project
{
namespace Common
{
namespace Callout
{
namespace _Inventory
{
struct CALLOUT_INVENTORY_PATH
{
static constexpr auto str = "CALLOUT_INVENTORY_PATH=%s";
static constexpr auto str_short = "CALLOUT_INVENTORY_PATH";
using type = std::tuple<std::decay_t<decltype(str)>,const char*>;
explicit constexpr CALLOUT_INVENTORY_PATH(const char* a) : _entry(entry(str, a)) {};
type _entry;
};
} // namespace _Inventory
struct Inventory
{
static constexpr auto L = level::ERR;
using CALLOUT_INVENTORY_PATH = _Inventory::CALLOUT_INVENTORY_PATH;
using metadata_types = std::tuple<CALLOUT_INVENTORY_PATH>;
};
} // namespace Callout
} // namespace Common
} // namespace openbmc_project
} // namespace xyz
namespace details
{
template <>
struct map_exception_type<sdbusplus::xyz::openbmc_project::Common::Callout::Error::Inventory>
{
using type = xyz::openbmc_project::Common::Callout::Inventory;
};
}
namespace xyz
{
namespace openbmc_project
{
namespace Common
{
namespace Callout
{
namespace _IPMISensor
{
struct CALLOUT_IPMI_SENSOR_NUM
{
static constexpr auto str = "CALLOUT_IPMI_SENSOR_NUM=%u";
static constexpr auto str_short = "CALLOUT_IPMI_SENSOR_NUM";
using type = std::tuple<std::decay_t<decltype(str)>,uint32_t>;
explicit constexpr CALLOUT_IPMI_SENSOR_NUM(uint32_t a) : _entry(entry(str, a)) {};
type _entry;
};
} // namespace _IPMISensor
struct IPMISensor
{
static constexpr auto L = level::ERR;
using CALLOUT_IPMI_SENSOR_NUM = _IPMISensor::CALLOUT_IPMI_SENSOR_NUM;
using metadata_types = std::tuple<CALLOUT_IPMI_SENSOR_NUM>;
};
} // namespace Callout
} // namespace Common
} // namespace openbmc_project
} // namespace xyz
namespace details
{
template <>
struct map_exception_type<sdbusplus::xyz::openbmc_project::Common::Callout::Error::IPMISensor>
{
using type = xyz::openbmc_project::Common::Callout::IPMISensor;
};
}
namespace xyz
{
namespace openbmc_project
{
namespace Power
{
namespace Fault
{
namespace _PowerSupplyUnderVoltageFault
{
struct RAW_STATUS
{
static constexpr auto str = "RAW_STATUS=%s";
static constexpr auto str_short = "RAW_STATUS";
using type = std::tuple<std::decay_t<decltype(str)>,const char*>;
explicit constexpr RAW_STATUS(const char* a) : _entry(entry(str, a)) {};
type _entry;
};
} // namespace _PowerSupplyUnderVoltageFault
struct PowerSupplyUnderVoltageFault
{
static constexpr auto L = level::ERR;
using RAW_STATUS = _PowerSupplyUnderVoltageFault::RAW_STATUS;
using metadata_types = std::tuple<RAW_STATUS>;
};
} // namespace Fault
} // namespace Power
} // namespace openbmc_project
} // namespace xyz
namespace details
{
template <>
struct map_exception_type<sdbusplus::xyz::openbmc_project::Power::Fault::Error::PowerSupplyUnderVoltageFault>
{
using type = xyz::openbmc_project::Power::Fault::PowerSupplyUnderVoltageFault;
};
}
namespace xyz
{
namespace openbmc_project
{
namespace Power
{
namespace Fault
{
namespace _PowerSupplyInputFault
{
struct RAW_STATUS
{
static constexpr auto str = "RAW_STATUS=%s";
static constexpr auto str_short = "RAW_STATUS";
using type = std::tuple<std::decay_t<decltype(str)>,const char*>;
explicit constexpr RAW_STATUS(const char* a) : _entry(entry(str, a)) {};
type _entry;
};
} // namespace _PowerSupplyInputFault
struct PowerSupplyInputFault
{
static constexpr auto L = level::ERR;
using RAW_STATUS = _PowerSupplyInputFault::RAW_STATUS;
using metadata_types = std::tuple<RAW_STATUS>;
};
} // namespace Fault
} // namespace Power
} // namespace openbmc_project
} // namespace xyz
namespace details
{
template <>
struct map_exception_type<sdbusplus::xyz::openbmc_project::Power::Fault::Error::PowerSupplyInputFault>
{
using type = xyz::openbmc_project::Power::Fault::PowerSupplyInputFault;
};
}
namespace xyz
{
namespace openbmc_project
{
namespace Power
{
namespace Fault
{
namespace _PowerSupplyShouldBeOn
{
struct RAW_STATUS
{
static constexpr auto str = "RAW_STATUS=%s";
static constexpr auto str_short = "RAW_STATUS";
using type = std::tuple<std::decay_t<decltype(str)>,const char*>;
explicit constexpr RAW_STATUS(const char* a) : _entry(entry(str, a)) {};
type _entry;
};
} // namespace _PowerSupplyShouldBeOn
struct PowerSupplyShouldBeOn
{
static constexpr auto L = level::ERR;
using RAW_STATUS = _PowerSupplyShouldBeOn::RAW_STATUS;
using CALLOUT_INVENTORY_PATH = xyz::openbmc_project::Common::Callout::Inventory::CALLOUT_INVENTORY_PATH;
using metadata_types = std::tuple<RAW_STATUS, CALLOUT_INVENTORY_PATH>;
};
} // namespace Fault
} // namespace Power
} // namespace openbmc_project
} // namespace xyz
namespace details
{
template <>
struct map_exception_type<sdbusplus::xyz::openbmc_project::Power::Fault::Error::PowerSupplyShouldBeOn>
{
using type = xyz::openbmc_project::Power::Fault::PowerSupplyShouldBeOn;
};
}
namespace xyz
{
namespace openbmc_project
{
namespace Power
{
namespace Fault
{
namespace _PowerSupplyOutputOvercurrent
{
struct RAW_STATUS
{
static constexpr auto str = "RAW_STATUS=%s";
static constexpr auto str_short = "RAW_STATUS";
using type = std::tuple<std::decay_t<decltype(str)>,const char*>;
explicit constexpr RAW_STATUS(const char* a) : _entry(entry(str, a)) {};
type _entry;
};
} // namespace _PowerSupplyOutputOvercurrent
struct PowerSupplyOutputOvercurrent
{
static constexpr auto L = level::ERR;
using RAW_STATUS = _PowerSupplyOutputOvercurrent::RAW_STATUS;
using CALLOUT_INVENTORY_PATH = xyz::openbmc_project::Common::Callout::Inventory::CALLOUT_INVENTORY_PATH;
using metadata_types = std::tuple<RAW_STATUS, CALLOUT_INVENTORY_PATH>;
};
} // namespace Fault
} // namespace Power
} // namespace openbmc_project
} // namespace xyz
namespace details
{
template <>
struct map_exception_type<sdbusplus::xyz::openbmc_project::Power::Fault::Error::PowerSupplyOutputOvercurrent>
{
using type = xyz::openbmc_project::Power::Fault::PowerSupplyOutputOvercurrent;
};
}
namespace xyz
{
namespace openbmc_project
{
namespace Power
{
namespace Fault
{
namespace _PowerSupplyOutputOvervoltage
{
struct RAW_STATUS
{
static constexpr auto str = "RAW_STATUS=%s";
static constexpr auto str_short = "RAW_STATUS";
using type = std::tuple<std::decay_t<decltype(str)>,const char*>;
explicit constexpr RAW_STATUS(const char* a) : _entry(entry(str, a)) {};
type _entry;
};
} // namespace _PowerSupplyOutputOvervoltage
struct PowerSupplyOutputOvervoltage
{
static constexpr auto L = level::ERR;
using RAW_STATUS = _PowerSupplyOutputOvervoltage::RAW_STATUS;
using CALLOUT_INVENTORY_PATH = xyz::openbmc_project::Common::Callout::Inventory::CALLOUT_INVENTORY_PATH;
using metadata_types = std::tuple<RAW_STATUS, CALLOUT_INVENTORY_PATH>;
};
} // namespace Fault
} // namespace Power
} // namespace openbmc_project
} // namespace xyz
namespace details
{
template <>
struct map_exception_type<sdbusplus::xyz::openbmc_project::Power::Fault::Error::PowerSupplyOutputOvervoltage>
{
using type = xyz::openbmc_project::Power::Fault::PowerSupplyOutputOvervoltage;
};
}
namespace xyz
{
namespace openbmc_project
{
namespace Power
{
namespace Fault
{
namespace _PowerSupplyFanFault
{
struct RAW_STATUS
{
static constexpr auto str = "RAW_STATUS=%s";
static constexpr auto str_short = "RAW_STATUS";
using type = std::tuple<std::decay_t<decltype(str)>,const char*>;
explicit constexpr RAW_STATUS(const char* a) : _entry(entry(str, a)) {};
type _entry;
};
} // namespace _PowerSupplyFanFault
struct PowerSupplyFanFault
{
static constexpr auto L = level::ERR;
using RAW_STATUS = _PowerSupplyFanFault::RAW_STATUS;
using CALLOUT_INVENTORY_PATH = xyz::openbmc_project::Common::Callout::Inventory::CALLOUT_INVENTORY_PATH;
using metadata_types = std::tuple<RAW_STATUS, CALLOUT_INVENTORY_PATH>;
};
} // namespace Fault
} // namespace Power
} // namespace openbmc_project
} // namespace xyz
namespace details
{
template <>
struct map_exception_type<sdbusplus::xyz::openbmc_project::Power::Fault::Error::PowerSupplyFanFault>
{
using type = xyz::openbmc_project::Power::Fault::PowerSupplyFanFault;
};
}
namespace xyz
{
namespace openbmc_project
{
namespace Power
{
namespace Fault
{
namespace _Shutdown
{
} // namespace _Shutdown
struct Shutdown
{
static constexpr auto L = level::ERR;
using metadata_types = std::tuple<>;
};
} // namespace Fault
} // namespace Power
} // namespace openbmc_project
} // namespace xyz
namespace details
{
template <>
struct map_exception_type<sdbusplus::xyz::openbmc_project::Power::Fault::Error::Shutdown>
{
using type = xyz::openbmc_project::Power::Fault::Shutdown;
};
}
namespace xyz
{
namespace openbmc_project
{
namespace Power
{
namespace Fault
{
namespace _PowerOnFailure
{
} // namespace _PowerOnFailure
struct PowerOnFailure
{
static constexpr auto L = level::ERR;
using metadata_types = std::tuple<>;
};
} // namespace Fault
} // namespace Power
} // namespace openbmc_project
} // namespace xyz
namespace details
{
template <>
struct map_exception_type<sdbusplus::xyz::openbmc_project::Power::Fault::Error::PowerOnFailure>
{
using type = xyz::openbmc_project::Power::Fault::PowerOnFailure;
};
}
namespace xyz
{
namespace openbmc_project
{
namespace Power
{
namespace Fault
{
namespace _PowerSequencerVoltageFault
{
struct RAIL
{
static constexpr auto str = "RAIL=%d";
static constexpr auto str_short = "RAIL";
using type = std::tuple<std::decay_t<decltype(str)>,uint16_t>;
explicit constexpr RAIL(uint16_t a) : _entry(entry(str, a)) {};
type _entry;
};
struct RAIL_NAME
{
static constexpr auto str = "RAIL_NAME=%s";
static constexpr auto str_short = "RAIL_NAME";
using type = std::tuple<std::decay_t<decltype(str)>,const char*>;
explicit constexpr RAIL_NAME(const char* a) : _entry(entry(str, a)) {};
type _entry;
};
struct RAW_STATUS
{
static constexpr auto str = "RAW_STATUS=%s";
static constexpr auto str_short = "RAW_STATUS";
using type = std::tuple<std::decay_t<decltype(str)>,const char*>;
explicit constexpr RAW_STATUS(const char* a) : _entry(entry(str, a)) {};
type _entry;
};
} // namespace _PowerSequencerVoltageFault
struct PowerSequencerVoltageFault
{
static constexpr auto L = level::ERR;
using RAIL = _PowerSequencerVoltageFault::RAIL;
using RAIL_NAME = _PowerSequencerVoltageFault::RAIL_NAME;
using RAW_STATUS = _PowerSequencerVoltageFault::RAW_STATUS;
using metadata_types = std::tuple<RAIL, RAIL_NAME, RAW_STATUS>;
};
} // namespace Fault
} // namespace Power
} // namespace openbmc_project
} // namespace xyz
namespace details
{
template <>
struct map_exception_type<sdbusplus::xyz::openbmc_project::Power::Fault::Error::PowerSequencerVoltageFault>
{
using type = xyz::openbmc_project::Power::Fault::PowerSequencerVoltageFault;
};
}
namespace xyz
{
namespace openbmc_project
{
namespace Power
{
namespace Fault
{
namespace _PowerSequencerPGOODFault
{
struct INPUT_NUM
{
static constexpr auto str = "INPUT_NUM=%d";
static constexpr auto str_short = "INPUT_NUM";
using type = std::tuple<std::decay_t<decltype(str)>,uint16_t>;
explicit constexpr INPUT_NUM(uint16_t a) : _entry(entry(str, a)) {};
type _entry;
};
struct INPUT_NAME
{
static constexpr auto str = "INPUT_NAME=%s";
static constexpr auto str_short = "INPUT_NAME";
using type = std::tuple<std::decay_t<decltype(str)>,const char*>;
explicit constexpr INPUT_NAME(const char* a) : _entry(entry(str, a)) {};
type _entry;
};
struct RAW_STATUS
{
static constexpr auto str = "RAW_STATUS=%s";
static constexpr auto str_short = "RAW_STATUS";
using type = std::tuple<std::decay_t<decltype(str)>,const char*>;
explicit constexpr RAW_STATUS(const char* a) : _entry(entry(str, a)) {};
type _entry;
};
} // namespace _PowerSequencerPGOODFault
struct PowerSequencerPGOODFault
{
static constexpr auto L = level::ERR;
using INPUT_NUM = _PowerSequencerPGOODFault::INPUT_NUM;
using INPUT_NAME = _PowerSequencerPGOODFault::INPUT_NAME;
using RAW_STATUS = _PowerSequencerPGOODFault::RAW_STATUS;
using metadata_types = std::tuple<INPUT_NUM, INPUT_NAME, RAW_STATUS>;
};
} // namespace Fault
} // namespace Power
} // namespace openbmc_project
} // namespace xyz
namespace details
{
template <>
struct map_exception_type<sdbusplus::xyz::openbmc_project::Power::Fault::Error::PowerSequencerPGOODFault>
{
using type = xyz::openbmc_project::Power::Fault::PowerSequencerPGOODFault;
};
}
namespace xyz
{
namespace openbmc_project
{
namespace Power
{
namespace Fault
{
namespace _PowerSequencerFault
{
struct RAW_STATUS
{
static constexpr auto str = "RAW_STATUS=%s";
static constexpr auto str_short = "RAW_STATUS";
using type = std::tuple<std::decay_t<decltype(str)>,const char*>;
explicit constexpr RAW_STATUS(const char* a) : _entry(entry(str, a)) {};
type _entry;
};
} // namespace _PowerSequencerFault
struct PowerSequencerFault
{
static constexpr auto L = level::ERR;
using RAW_STATUS = _PowerSequencerFault::RAW_STATUS;
using metadata_types = std::tuple<RAW_STATUS>;
};
} // namespace Fault
} // namespace Power
} // namespace openbmc_project
} // namespace xyz
namespace details
{
template <>
struct map_exception_type<sdbusplus::xyz::openbmc_project::Power::Fault::Error::PowerSequencerFault>
{
using type = xyz::openbmc_project::Power::Fault::PowerSequencerFault;
};
}
namespace xyz
{
namespace openbmc_project
{
namespace Power
{
namespace Fault
{
namespace _GPUPowerFault
{
struct RAW_STATUS
{
static constexpr auto str = "RAW_STATUS=%s";
static constexpr auto str_short = "RAW_STATUS";
using type = std::tuple<std::decay_t<decltype(str)>,const char*>;
explicit constexpr RAW_STATUS(const char* a) : _entry(entry(str, a)) {};
type _entry;
};
struct GPU
{
static constexpr auto str = "GPU=%s";
static constexpr auto str_short = "GPU";
using type = std::tuple<std::decay_t<decltype(str)>,const char*>;
explicit constexpr GPU(const char* a) : _entry(entry(str, a)) {};
type _entry;
};
} // namespace _GPUPowerFault
struct GPUPowerFault
{
static constexpr auto L = level::ERR;
using RAW_STATUS = _GPUPowerFault::RAW_STATUS;
using GPU = _GPUPowerFault::GPU;
using metadata_types = std::tuple<RAW_STATUS, GPU>;
};
} // namespace Fault
} // namespace Power
} // namespace openbmc_project
} // namespace xyz
namespace details
{
template <>
struct map_exception_type<sdbusplus::xyz::openbmc_project::Power::Fault::Error::GPUPowerFault>
{
using type = xyz::openbmc_project::Power::Fault::GPUPowerFault;
};
}
namespace xyz
{
namespace openbmc_project
{
namespace Power
{
namespace Fault
{
namespace _GPUOverTemp
{
struct RAW_STATUS
{
static constexpr auto str = "RAW_STATUS=%s";
static constexpr auto str_short = "RAW_STATUS";
using type = std::tuple<std::decay_t<decltype(str)>,const char*>;
explicit constexpr RAW_STATUS(const char* a) : _entry(entry(str, a)) {};
type _entry;
};
struct GPU
{
static constexpr auto str = "GPU=%s";
static constexpr auto str_short = "GPU";
using type = std::tuple<std::decay_t<decltype(str)>,const char*>;
explicit constexpr GPU(const char* a) : _entry(entry(str, a)) {};
type _entry;
};
} // namespace _GPUOverTemp
struct GPUOverTemp
{
static constexpr auto L = level::ERR;
using RAW_STATUS = _GPUOverTemp::RAW_STATUS;
using GPU = _GPUOverTemp::GPU;
using metadata_types = std::tuple<RAW_STATUS, GPU>;
};
} // namespace Fault
} // namespace Power
} // namespace openbmc_project
} // namespace xyz
namespace details
{
template <>
struct map_exception_type<sdbusplus::xyz::openbmc_project::Power::Fault::Error::GPUOverTemp>
{
using type = xyz::openbmc_project::Power::Fault::GPUOverTemp;
};
}
} // namespace logging
} // namespace phosphor