// This file was autogenerated. Do not edit! // See elog-gen.py for more details #pragma once #include #include #include #include #include #include namespace sdbusplus { namespace xyz { namespace openbmc_project { namespace Dump { namespace Create { namespace Error { struct QuotaExceeded; } // namespace Error } // namespace Create } // namespace Dump } // namespace openbmc_project } // namespace xyz } // namespace sdbusplus namespace sdbusplus { namespace org { namespace open_power { namespace Host { namespace Error { struct Event; } // namespace Error } // namespace Host } // namespace open_power } // namespace org } // namespace sdbusplus namespace sdbusplus { namespace xyz { namespace openbmc_project { namespace State { namespace Host { namespace Error { struct SoftOffTimeout; } // namespace Error } // namespace Host } // namespace State } // namespace openbmc_project } // namespace xyz } // namespace sdbusplus namespace sdbusplus { namespace xyz { namespace openbmc_project { namespace Sensor { namespace Device { namespace Error { struct ReadFailure; } // namespace Error } // namespace Device } // namespace Sensor } // namespace openbmc_project } // namespace xyz } // namespace sdbusplus namespace sdbusplus { namespace xyz { namespace openbmc_project { namespace Control { namespace Device { namespace Error { struct WriteFailure; } // namespace Error } // namespace Device } // namespace Control } // namespace openbmc_project } // namespace xyz } // namespace sdbusplus namespace sdbusplus { namespace xyz { namespace openbmc_project { namespace Common { namespace File { namespace Error { struct Seek; } // namespace Error } // namespace File } // namespace Common } // namespace openbmc_project } // namespace xyz } // namespace sdbusplus namespace sdbusplus { namespace org { namespace open_power { namespace Common { namespace Callout { namespace Error { struct Procedure; } // namespace Error } // namespace Callout } // namespace Common } // namespace open_power } // namespace org } // namespace sdbusplus namespace sdbusplus { namespace xyz { namespace openbmc_project { namespace Control { namespace Host { namespace Error { struct CommandNotSupported; } // namespace Error } // namespace Host } // namespace Control } // namespace openbmc_project } // namespace xyz } // namespace sdbusplus namespace sdbusplus { namespace xyz { namespace openbmc_project { namespace Common { namespace Error { struct InternalFailure; } // namespace Error } // namespace Common } // 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 org { namespace open_power { namespace Host { namespace Access { namespace Error { struct WriteCFAM; } // namespace Error } // namespace Access } // namespace Host } // namespace open_power } // namespace org } // namespace sdbusplus namespace sdbusplus { namespace xyz { namespace openbmc_project { namespace Common { namespace File { namespace Error { struct Open; } // namespace Error } // namespace File } // namespace Common } // namespace openbmc_project } // namespace xyz } // namespace sdbusplus namespace sdbusplus { namespace org { namespace open_power { namespace Host { namespace Error { struct Checkstop; } // namespace Error } // namespace Host } // namespace open_power } // namespace org } // namespace sdbusplus namespace sdbusplus { namespace xyz { namespace openbmc_project { namespace Common { namespace File { namespace Error { struct Write; } // namespace Error } // namespace File } // namespace Common } // 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 Error { struct InvalidArgument; } // namespace Error } // namespace Common } // namespace openbmc_project } // namespace xyz } // namespace sdbusplus namespace sdbusplus { namespace xyz { namespace openbmc_project { namespace Dump { namespace Create { namespace Error { struct Disabled; } // namespace Error } // namespace Create } // namespace Dump } // 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 Common { namespace Error { struct Timeout; } // namespace Error } // 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 org { namespace open_power { namespace Host { namespace Error { struct WatchdogTimedOut; } // namespace Error } // namespace Host } // namespace open_power } // namespace org } // namespace sdbusplus namespace sdbusplus { namespace org { namespace open_power { namespace Host { namespace Access { namespace Error { struct ReadCFAM; } // namespace Error } // namespace Access } // namespace Host } // namespace open_power } // namespace org } // namespace sdbusplus namespace sdbusplus { namespace org { namespace open_power { namespace Host { namespace Error { struct MaintenanceProcedure; } // namespace Error } // namespace Host } // namespace open_power } // namespace org } // 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, 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, 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; }; } // 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 details 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, 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; }; } // 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 details 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, 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, 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; }; } // 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 details 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, 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; }; } // 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 details 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, 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; }; } // 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 details namespace org { namespace open_power { namespace Common { namespace Callout { namespace _Procedure { struct PROCEDURE { static constexpr auto str = "PROCEDURE=%u"; static constexpr auto str_short = "PROCEDURE"; using type = std::tuple, uint32_t>; explicit constexpr PROCEDURE(uint32_t a) : _entry(entry(str, a)){}; type _entry; }; } // namespace _Procedure struct Procedure { static constexpr auto L = level::ERR; using PROCEDURE = _Procedure::PROCEDURE; using metadata_types = std::tuple; }; } // namespace Callout } // namespace Common } // namespace open_power } // namespace org namespace details { template <> struct map_exception_type< sdbusplus::org::open_power::Common::Callout::Error::Procedure> { using type = org::open_power::Common::Callout::Procedure; }; } // namespace details namespace xyz { namespace openbmc_project { namespace Common { namespace _Timeout { struct TIMEOUT_IN_MSEC { static constexpr auto str = "TIMEOUT_IN_MSEC=%llu"; static constexpr auto str_short = "TIMEOUT_IN_MSEC"; using type = std::tuple, uint64_t>; explicit constexpr TIMEOUT_IN_MSEC(uint64_t a) : _entry(entry(str, a)){}; type _entry; }; } // namespace _Timeout struct Timeout { static constexpr auto L = level::ERR; using TIMEOUT_IN_MSEC = _Timeout::TIMEOUT_IN_MSEC; using metadata_types = std::tuple; }; } // namespace Common } // namespace openbmc_project } // namespace xyz namespace details { template <> struct map_exception_type< sdbusplus::xyz::openbmc_project::Common::Error::Timeout> { using type = xyz::openbmc_project::Common::Timeout; }; } // namespace details namespace xyz { namespace openbmc_project { namespace Common { namespace _InternalFailure { } // namespace _InternalFailure struct InternalFailure { static constexpr auto L = level::ERR; using metadata_types = std::tuple<>; }; } // namespace Common } // namespace openbmc_project } // namespace xyz namespace details { template <> struct map_exception_type< sdbusplus::xyz::openbmc_project::Common::Error::InternalFailure> { using type = xyz::openbmc_project::Common::InternalFailure; }; } // namespace details namespace xyz { namespace openbmc_project { namespace Common { namespace _InvalidArgument { struct ARGUMENT_NAME { static constexpr auto str = "ARGUMENT_NAME=%s"; static constexpr auto str_short = "ARGUMENT_NAME"; using type = std::tuple, const char*>; explicit constexpr ARGUMENT_NAME(const char* a) : _entry(entry(str, a)){}; type _entry; }; struct ARGUMENT_VALUE { static constexpr auto str = "ARGUMENT_VALUE=%s"; static constexpr auto str_short = "ARGUMENT_VALUE"; using type = std::tuple, const char*>; explicit constexpr ARGUMENT_VALUE(const char* a) : _entry(entry(str, a)){}; type _entry; }; } // namespace _InvalidArgument struct InvalidArgument { static constexpr auto L = level::ERR; using ARGUMENT_NAME = _InvalidArgument::ARGUMENT_NAME; using ARGUMENT_VALUE = _InvalidArgument::ARGUMENT_VALUE; using metadata_types = std::tuple; }; } // namespace Common } // namespace openbmc_project } // namespace xyz namespace details { template <> struct map_exception_type< sdbusplus::xyz::openbmc_project::Common::Error::InvalidArgument> { using type = xyz::openbmc_project::Common::InvalidArgument; }; } // namespace details namespace example { namespace xyz { namespace openbmc_project { namespace Example { namespace Device { namespace _Callout { struct CALLOUT_ERRNO_TEST { static constexpr auto str = "CALLOUT_ERRNO_TEST=%d"; static constexpr auto str_short = "CALLOUT_ERRNO_TEST"; using type = std::tuple, int32_t>; explicit constexpr CALLOUT_ERRNO_TEST(int32_t a) : _entry(entry(str, a)){}; type _entry; }; struct CALLOUT_DEVICE_PATH_TEST { static constexpr auto str = "CALLOUT_DEVICE_PATH_TEST=%s"; static constexpr auto str_short = "CALLOUT_DEVICE_PATH_TEST"; using type = std::tuple, const char*>; explicit constexpr CALLOUT_DEVICE_PATH_TEST(const char* a) : _entry(entry(str, a)){}; type _entry; }; } // namespace _Callout struct Callout : public sdbusplus::exception_t { static constexpr auto errName = "example.xyz.openbmc_project.Example.Device.Callout"; static constexpr auto errDesc = "Generic device callout"; static constexpr auto L = level::ERR; using CALLOUT_ERRNO_TEST = _Callout::CALLOUT_ERRNO_TEST; using CALLOUT_DEVICE_PATH_TEST = _Callout::CALLOUT_DEVICE_PATH_TEST; using metadata_types = std::tuple; const char* name() const noexcept { return errName; } const char* description() const noexcept { return errDesc; } const char* what() const noexcept { return errName; } }; } // namespace Device } // namespace Example } // namespace openbmc_project } // namespace xyz } // namespace example namespace xyz { namespace openbmc_project { namespace Sensor { namespace Device { namespace _ReadFailure { } // namespace _ReadFailure struct ReadFailure { static constexpr auto L = level::ERR; 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; }; } // namespace Device } // namespace Sensor } // namespace openbmc_project } // namespace xyz namespace details { template <> struct map_exception_type< sdbusplus::xyz::openbmc_project::Sensor::Device::Error::ReadFailure> { using type = xyz::openbmc_project::Sensor::Device::ReadFailure; }; } // namespace details namespace org { namespace open_power { namespace Host { namespace _Checkstop { } // namespace _Checkstop struct Checkstop { static constexpr auto L = level::ERR; using metadata_types = std::tuple<>; }; } // namespace Host } // namespace open_power } // namespace org namespace details { template <> struct map_exception_type { using type = org::open_power::Host::Checkstop; }; } // namespace details namespace org { namespace open_power { namespace Host { namespace _WatchdogTimedOut { } // namespace _WatchdogTimedOut struct WatchdogTimedOut { static constexpr auto L = level::ERR; using metadata_types = std::tuple<>; }; } // namespace Host } // namespace open_power } // namespace org namespace details { template <> struct map_exception_type< sdbusplus::org::open_power::Host::Error::WatchdogTimedOut> { using type = org::open_power::Host::WatchdogTimedOut; }; } // namespace details namespace example { namespace xyz { namespace openbmc_project { namespace Example { namespace Elog { namespace _TestErrorTwo { struct DEV_ADDR { static constexpr auto str = "DEV_ADDR=0x%.8X"; static constexpr auto str_short = "DEV_ADDR"; using type = std::tuple, uint32_t>; explicit constexpr DEV_ADDR(uint32_t a) : _entry(entry(str, a)){}; type _entry; }; struct DEV_ID { static constexpr auto str = "DEV_ID=%u"; static constexpr auto str_short = "DEV_ID"; using type = std::tuple, uint32_t>; explicit constexpr DEV_ID(uint32_t a) : _entry(entry(str, a)){}; type _entry; }; struct DEV_NAME { static constexpr auto str = "DEV_NAME=%s"; static constexpr auto str_short = "DEV_NAME"; using type = std::tuple, const char*>; explicit constexpr DEV_NAME(const char* a) : _entry(entry(str, a)){}; type _entry; }; } // namespace _TestErrorTwo struct TestErrorTwo : public sdbusplus::exception_t { static constexpr auto errName = "example.xyz.openbmc_project.Example.Elog.TestErrorTwo"; static constexpr auto errDesc = "This is test error two"; static constexpr auto L = level::ERR; using DEV_ADDR = _TestErrorTwo::DEV_ADDR; using DEV_ID = _TestErrorTwo::DEV_ID; using DEV_NAME = _TestErrorTwo::DEV_NAME; using metadata_types = std::tuple; const char* name() const noexcept { return errName; } const char* description() const noexcept { return errDesc; } const char* what() const noexcept { return errName; } }; } // namespace Elog } // namespace Example } // namespace openbmc_project } // namespace xyz } // namespace example namespace example { namespace xyz { namespace openbmc_project { namespace Example { namespace Elog { namespace _AutoTestSimple { struct STRING { static constexpr auto str = "STRING=%s"; static constexpr auto str_short = "STRING"; using type = std::tuple, const char*>; explicit constexpr STRING(const char* a) : _entry(entry(str, a)){}; type _entry; }; } // namespace _AutoTestSimple struct AutoTestSimple : public sdbusplus::exception_t { static constexpr auto errName = "example.xyz.openbmc_project.Example.Elog.AutoTestSimple"; static constexpr auto errDesc = "This is a simple test error."; static constexpr auto L = level::ERR; using STRING = _AutoTestSimple::STRING; using metadata_types = std::tuple; const char* name() const noexcept { return errName; } const char* description() const noexcept { return errDesc; } const char* what() const noexcept { return errName; } }; } // namespace Elog } // namespace Example } // namespace openbmc_project } // namespace xyz } // namespace example namespace example { namespace xyz { namespace openbmc_project { namespace Example { namespace Elog { namespace _TestCallout { struct DEV_ADDR { static constexpr auto str = "DEV_ADDR=0x%.8X"; static constexpr auto str_short = "DEV_ADDR"; using type = std::tuple, uint32_t>; explicit constexpr DEV_ADDR(uint32_t a) : _entry(entry(str, a)){}; type _entry; }; } // namespace _TestCallout struct TestCallout : public sdbusplus::exception_t { static constexpr auto errName = "example.xyz.openbmc_project.Example.Elog.TestCallout"; static constexpr auto errDesc = "This is test error TestCallout"; static constexpr auto L = level::ERR; using DEV_ADDR = _TestCallout::DEV_ADDR; using CALLOUT_ERRNO_TEST = example::xyz::openbmc_project::Example::Device:: Callout::CALLOUT_ERRNO_TEST; using CALLOUT_DEVICE_PATH_TEST = example::xyz::openbmc_project::Example:: Device::Callout::CALLOUT_DEVICE_PATH_TEST; using metadata_types = std::tuple; const char* name() const noexcept { return errName; } const char* description() const noexcept { return errDesc; } const char* what() const noexcept { return errName; } }; } // namespace Elog } // namespace Example } // namespace openbmc_project } // namespace xyz } // namespace example namespace org { namespace open_power { namespace Host { namespace _Event { struct ESEL { static constexpr auto str = "ESEL=%s"; static constexpr auto str_short = "ESEL"; using type = std::tuple, const char*>; explicit constexpr ESEL(const char* a) : _entry(entry(str, a)){}; type _entry; }; } // namespace _Event struct Event { static constexpr auto L = level::ERR; using ESEL = _Event::ESEL; using CALLOUT_INVENTORY_PATH = xyz::openbmc_project::Common::Callout:: Inventory::CALLOUT_INVENTORY_PATH; using metadata_types = std::tuple; }; } // namespace Host } // namespace open_power } // namespace org namespace details { template <> struct map_exception_type { using type = org::open_power::Host::Event; }; } // namespace details namespace org { namespace open_power { namespace Host { namespace _MaintenanceProcedure { struct ESEL { static constexpr auto str = "ESEL=%s"; static constexpr auto str_short = "ESEL"; using type = std::tuple, const char*>; explicit constexpr ESEL(const char* a) : _entry(entry(str, a)){}; type _entry; }; } // namespace _MaintenanceProcedure struct MaintenanceProcedure { static constexpr auto L = level::ERR; using ESEL = _MaintenanceProcedure::ESEL; using PROCEDURE = org::open_power::Common::Callout::Procedure::PROCEDURE; using metadata_types = std::tuple; }; } // namespace Host } // namespace open_power } // namespace org namespace details { template <> struct map_exception_type< sdbusplus::org::open_power::Host::Error::MaintenanceProcedure> { using type = org::open_power::Host::MaintenanceProcedure; }; } // namespace details namespace xyz { namespace openbmc_project { namespace Control { namespace Device { namespace _WriteFailure { } // namespace _WriteFailure struct WriteFailure { static constexpr auto L = level::ERR; 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; }; } // namespace Device } // namespace Control } // namespace openbmc_project } // namespace xyz namespace details { template <> struct map_exception_type< sdbusplus::xyz::openbmc_project::Control::Device::Error::WriteFailure> { using type = xyz::openbmc_project::Control::Device::WriteFailure; }; } // namespace details namespace xyz { namespace openbmc_project { namespace Common { namespace File { namespace _Open { struct ERRNO { static constexpr auto str = "ERRNO=%d"; static constexpr auto str_short = "ERRNO"; using type = std::tuple, int32_t>; explicit constexpr ERRNO(int32_t a) : _entry(entry(str, a)){}; type _entry; }; struct PATH { static constexpr auto str = "PATH=%s"; static constexpr auto str_short = "PATH"; using type = std::tuple, const char*>; explicit constexpr PATH(const char* a) : _entry(entry(str, a)){}; type _entry; }; } // namespace _Open struct Open { static constexpr auto L = level::ERR; using ERRNO = _Open::ERRNO; using PATH = _Open::PATH; using metadata_types = std::tuple; }; } // namespace File } // namespace Common } // namespace openbmc_project } // namespace xyz namespace details { template <> struct map_exception_type< sdbusplus::xyz::openbmc_project::Common::File::Error::Open> { using type = xyz::openbmc_project::Common::File::Open; }; } // namespace details namespace xyz { namespace openbmc_project { namespace Common { namespace File { namespace _Seek { struct OFFSET { static constexpr auto str = "OFFSET=%ll"; static constexpr auto str_short = "OFFSET"; using type = std::tuple, int64_t>; explicit constexpr OFFSET(int64_t a) : _entry(entry(str, a)){}; type _entry; }; struct WHENCE { static constexpr auto str = "WHENCE=%d"; static constexpr auto str_short = "WHENCE"; using type = std::tuple, int32_t>; explicit constexpr WHENCE(int32_t a) : _entry(entry(str, a)){}; type _entry; }; struct ERRNO { static constexpr auto str = "ERRNO=%d"; static constexpr auto str_short = "ERRNO"; using type = std::tuple, int32_t>; explicit constexpr ERRNO(int32_t a) : _entry(entry(str, a)){}; type _entry; }; struct PATH { static constexpr auto str = "PATH=%s"; static constexpr auto str_short = "PATH"; using type = std::tuple, const char*>; explicit constexpr PATH(const char* a) : _entry(entry(str, a)){}; type _entry; }; } // namespace _Seek struct Seek { static constexpr auto L = level::ERR; using OFFSET = _Seek::OFFSET; using WHENCE = _Seek::WHENCE; using ERRNO = _Seek::ERRNO; using PATH = _Seek::PATH; using metadata_types = std::tuple; }; } // namespace File } // namespace Common } // namespace openbmc_project } // namespace xyz namespace details { template <> struct map_exception_type< sdbusplus::xyz::openbmc_project::Common::File::Error::Seek> { using type = xyz::openbmc_project::Common::File::Seek; }; } // namespace details namespace xyz { namespace openbmc_project { namespace Common { namespace File { namespace _Write { struct ERRNO { static constexpr auto str = "ERRNO=%d"; static constexpr auto str_short = "ERRNO"; using type = std::tuple, int32_t>; explicit constexpr ERRNO(int32_t a) : _entry(entry(str, a)){}; type _entry; }; struct PATH { static constexpr auto str = "PATH=%s"; static constexpr auto str_short = "PATH"; using type = std::tuple, const char*>; explicit constexpr PATH(const char* a) : _entry(entry(str, a)){}; type _entry; }; } // namespace _Write struct Write { static constexpr auto L = level::ERR; using ERRNO = _Write::ERRNO; using PATH = _Write::PATH; using metadata_types = std::tuple; }; } // namespace File } // namespace Common } // namespace openbmc_project } // namespace xyz namespace details { template <> struct map_exception_type< sdbusplus::xyz::openbmc_project::Common::File::Error::Write> { using type = xyz::openbmc_project::Common::File::Write; }; } // namespace details namespace org { namespace open_power { namespace Host { namespace Access { namespace _WriteCFAM { struct ADDRESS { static constexpr auto str = "ADDRESS=0x%X"; static constexpr auto str_short = "ADDRESS"; using type = std::tuple, uint32_t>; explicit constexpr ADDRESS(uint32_t a) : _entry(entry(str, a)){}; type _entry; }; } // namespace _WriteCFAM struct WriteCFAM { static constexpr auto L = level::ERR; using ADDRESS = _WriteCFAM::ADDRESS; 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; }; } // namespace Access } // namespace Host } // namespace open_power } // namespace org namespace details { template <> struct map_exception_type< sdbusplus::org::open_power::Host::Access::Error::WriteCFAM> { using type = org::open_power::Host::Access::WriteCFAM; }; } // namespace details namespace org { namespace open_power { namespace Host { namespace Access { namespace _ReadCFAM { struct ADDRESS { static constexpr auto str = "ADDRESS=0x%X"; static constexpr auto str_short = "ADDRESS"; using type = std::tuple, uint32_t>; explicit constexpr ADDRESS(uint32_t a) : _entry(entry(str, a)){}; type _entry; }; } // namespace _ReadCFAM struct ReadCFAM { static constexpr auto L = level::ERR; using ADDRESS = _ReadCFAM::ADDRESS; 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; }; } // namespace Access } // namespace Host } // namespace open_power } // namespace org namespace details { template <> struct map_exception_type< sdbusplus::org::open_power::Host::Access::Error::ReadCFAM> { using type = org::open_power::Host::Access::ReadCFAM; }; } // namespace details namespace xyz { namespace openbmc_project { namespace State { namespace Host { namespace _SoftOffTimeout { } // namespace _SoftOffTimeout struct SoftOffTimeout { static constexpr auto L = level::ERR; using TIMEOUT_IN_MSEC = xyz::openbmc_project::Common::Timeout::TIMEOUT_IN_MSEC; using metadata_types = std::tuple; }; } // namespace Host } // namespace State } // namespace openbmc_project } // namespace xyz namespace details { template <> struct map_exception_type< sdbusplus::xyz::openbmc_project::State::Host::Error::SoftOffTimeout> { using type = xyz::openbmc_project::State::Host::SoftOffTimeout; }; } // namespace details namespace xyz { namespace openbmc_project { namespace Dump { namespace Create { namespace _Disabled { } // namespace _Disabled struct Disabled { static constexpr auto L = level::ERR; using metadata_types = std::tuple<>; }; } // namespace Create } // namespace Dump } // namespace openbmc_project } // namespace xyz namespace details { template <> struct map_exception_type< sdbusplus::xyz::openbmc_project::Dump::Create::Error::Disabled> { using type = xyz::openbmc_project::Dump::Create::Disabled; }; } // namespace details namespace xyz { namespace openbmc_project { namespace Dump { namespace Create { namespace _QuotaExceeded { struct REASON { static constexpr auto str = "REASON = %s"; static constexpr auto str_short = "REASON "; using type = std::tuple, const char*>; explicit constexpr REASON(const char* a) : _entry(entry(str, a)){}; type _entry; }; } // namespace _QuotaExceeded struct QuotaExceeded { static constexpr auto L = level::ERR; using REASON = _QuotaExceeded::REASON; using metadata_types = std::tuple; }; } // namespace Create } // namespace Dump } // namespace openbmc_project } // namespace xyz namespace details { template <> struct map_exception_type< sdbusplus::xyz::openbmc_project::Dump::Create::Error::QuotaExceeded> { using type = xyz::openbmc_project::Dump::Create::QuotaExceeded; }; } // namespace details namespace xyz { namespace openbmc_project { namespace Control { namespace Host { namespace _CommandNotSupported { } // namespace _CommandNotSupported struct CommandNotSupported { static constexpr auto L = level::ERR; using metadata_types = std::tuple<>; }; } // namespace Host } // namespace Control } // namespace openbmc_project } // namespace xyz namespace details { template <> struct map_exception_type< sdbusplus::xyz::openbmc_project::Control::Host::Error::CommandNotSupported> { using type = xyz::openbmc_project::Control::Host::CommandNotSupported; }; } // namespace details namespace example { namespace xyz { namespace openbmc_project { namespace Example { namespace Elog { namespace _TestErrorOne { struct ERRNUM { static constexpr auto str = "ERRNUM=0x%.4X"; static constexpr auto str_short = "ERRNUM"; using type = std::tuple, uint16_t>; explicit constexpr ERRNUM(uint16_t a) : _entry(entry(str, a)){}; type _entry; }; struct FILE_PATH { static constexpr auto str = "FILE_PATH=%s"; static constexpr auto str_short = "FILE_PATH"; using type = std::tuple, const char*>; explicit constexpr FILE_PATH(const char* a) : _entry(entry(str, a)){}; type _entry; }; struct FILE_NAME { static constexpr auto str = "FILE_NAME=%s"; static constexpr auto str_short = "FILE_NAME"; using type = std::tuple, const char*>; explicit constexpr FILE_NAME(const char* a) : _entry(entry(str, a)){}; type _entry; }; } // namespace _TestErrorOne struct TestErrorOne : public sdbusplus::exception_t { static constexpr auto errName = "example.xyz.openbmc_project.Example.Elog.TestErrorOne"; static constexpr auto errDesc = "this is test error one"; static constexpr auto L = level::INFO; using ERRNUM = _TestErrorOne::ERRNUM; using FILE_PATH = _TestErrorOne::FILE_PATH; using FILE_NAME = _TestErrorOne::FILE_NAME; using DEV_ADDR = example::xyz::openbmc_project::Example::Elog::TestErrorTwo::DEV_ADDR; using DEV_ID = example::xyz::openbmc_project::Example::Elog::TestErrorTwo::DEV_ID; using DEV_NAME = example::xyz::openbmc_project::Example::Elog::TestErrorTwo::DEV_NAME; using metadata_types = std::tuple; const char* name() const noexcept { return errName; } const char* description() const noexcept { return errDesc; } const char* what() const noexcept { return errName; } }; } // namespace Elog } // namespace Example } // namespace openbmc_project } // namespace xyz } // namespace example namespace example { namespace xyz { namespace openbmc_project { namespace Example { namespace Foo { namespace _Foo { struct FOO_DATA { static constexpr auto str = "FOO_DATA=%s"; static constexpr auto str_short = "FOO_DATA"; using type = std::tuple, const char*>; explicit constexpr FOO_DATA(const char* a) : _entry(entry(str, a)){}; type _entry; }; } // namespace _Foo struct Foo : public sdbusplus::exception_t { static constexpr auto errName = "example.xyz.openbmc_project.Example.Foo.Foo"; static constexpr auto errDesc = "this is test error Foo"; static constexpr auto L = level::INFO; using FOO_DATA = _Foo::FOO_DATA; using ERRNUM = example::xyz::openbmc_project::Example::Elog::TestErrorOne::ERRNUM; using FILE_PATH = example::xyz::openbmc_project::Example::Elog::TestErrorOne::FILE_PATH; using FILE_NAME = example::xyz::openbmc_project::Example::Elog::TestErrorOne::FILE_NAME; using DEV_ADDR = example::xyz::openbmc_project::Example::Elog::TestErrorTwo::DEV_ADDR; using DEV_ID = example::xyz::openbmc_project::Example::Elog::TestErrorTwo::DEV_ID; using DEV_NAME = example::xyz::openbmc_project::Example::Elog::TestErrorTwo::DEV_NAME; using metadata_types = std::tuple; const char* name() const noexcept { return errName; } const char* description() const noexcept { return errDesc; } const char* what() const noexcept { return errName; } }; } // namespace Foo } // namespace Example } // namespace openbmc_project } // namespace xyz } // namespace example namespace example { namespace xyz { namespace openbmc_project { namespace Example { namespace Bar { namespace _Bar { struct BAR_DATA { static constexpr auto str = "BAR_DATA=%s"; static constexpr auto str_short = "BAR_DATA"; using type = std::tuple, const char*>; explicit constexpr BAR_DATA(const char* a) : _entry(entry(str, a)){}; type _entry; }; } // namespace _Bar struct Bar : public sdbusplus::exception_t { static constexpr auto errName = "example.xyz.openbmc_project.Example.Bar.Bar"; static constexpr auto errDesc = "this is test error Bar"; static constexpr auto L = level::INFO; using BAR_DATA = _Bar::BAR_DATA; using FOO_DATA = example::xyz::openbmc_project::Example::Foo::Foo::FOO_DATA; using ERRNUM = example::xyz::openbmc_project::Example::Elog::TestErrorOne::ERRNUM; using FILE_PATH = example::xyz::openbmc_project::Example::Elog::TestErrorOne::FILE_PATH; using FILE_NAME = example::xyz::openbmc_project::Example::Elog::TestErrorOne::FILE_NAME; using DEV_ADDR = example::xyz::openbmc_project::Example::Elog::TestErrorTwo::DEV_ADDR; using DEV_ID = example::xyz::openbmc_project::Example::Elog::TestErrorTwo::DEV_ID; using DEV_NAME = example::xyz::openbmc_project::Example::Elog::TestErrorTwo::DEV_NAME; using metadata_types = std::tuple; const char* name() const noexcept { return errName; } const char* description() const noexcept { return errDesc; } const char* what() const noexcept { return errName; } }; } // namespace Bar } // namespace Example } // namespace openbmc_project } // namespace xyz } // namespace example } // namespace logging } // namespace phosphor