#pragma once #include #include #include #include #include #include #include namespace ipmi { namespace sel { static constexpr auto mapperBusName = "xyz.openbmc_project.ObjectMapper"; static constexpr auto mapperObjPath = "/xyz/openbmc_project/object_mapper"; static constexpr auto mapperIntf = "xyz.openbmc_project.ObjectMapper"; static constexpr auto logWatchPath = "/xyz/openbmc_project/logging"; static constexpr auto logBasePath = "/xyz/openbmc_project/logging/entry"; static constexpr auto logEntryIntf = "xyz.openbmc_project.Logging.Entry"; static constexpr auto logDeleteIntf = "xyz.openbmc_project.Object.Delete"; static constexpr auto logObj = "/xyz/openbmc_project/logging"; static constexpr auto logIntf = "xyz.openbmc_project.Collection.DeleteAll"; static constexpr auto logDeleteAllMethod = "DeleteAll"; static constexpr auto propIntf = "org.freedesktop.DBus.Properties"; using ObjectPaths = std::vector; using PropertyName = std::string; using Resolved = bool; using Id = uint32_t; using Timestamp = uint64_t; using Message = std::string; using AdditionalData = std::vector; using AdditionalData2 = std::map; using PropertyType = std::variant; static constexpr auto selVersion = 0x51; static constexpr auto invalidTimeStamp = 0xFFFFFFFF; static constexpr auto firstEntry = 0x0000; static constexpr auto lastEntry = 0xFFFF; static constexpr auto entireRecord = 0xFF; static constexpr auto selRecordSize = 16; namespace operationSupport { static constexpr bool overflow = false; static constexpr bool deleteSel = true; static constexpr bool partialAddSelEntry = false; static constexpr bool reserveSel = true; static constexpr bool getSelAllocationInfo = false; } // namespace operationSupport /** @struct GetSELEntryRequest * * IPMI payload for Get SEL Entry command request. */ struct GetSELEntryRequest { uint16_t reservationID; //!< Reservation ID. uint16_t selRecordID; //!< SEL Record ID. uint8_t offset; //!< Offset into record. uint8_t readLength; //!< Bytes to read. } __attribute__((packed)); constexpr size_t SELRecordLength = 16; /** @struct SELEventRecord * * IPMI SEL Event Record */ struct SELEventRecord { uint16_t recordID; //!< Record ID. uint8_t recordType; //!< Record Type. uint32_t timeStamp; //!< Timestamp. uint16_t generatorID; //!< Generator ID. uint8_t eventMsgRevision; //!< Event Message Revision. uint8_t sensorType; //!< Sensor Type. uint8_t sensorNum; //!< Sensor Number. uint8_t eventType; //!< Event Dir | Event Type. uint8_t eventData1; //!< Event Data 1. uint8_t eventData2; //!< Event Data 2. uint8_t eventData3; //!< Event Data 3. } __attribute__((packed)); static_assert(sizeof(SELEventRecord) == SELRecordLength); /** @struct SELOEMRecordTypeCD * * IPMI SEL OEM Record - Type C0h-DFh */ struct SELOEMRecordTypeCD { uint16_t recordID; //!< Record ID. uint8_t recordType; //!< Record Type. uint32_t timeStamp; //!< Timestamp. uint8_t manufacturerID[3]; //!< Manufacturer ID. uint8_t oemDefined[6]; //!< OEM Defined data. } __attribute__((packed)); static_assert(sizeof(SELOEMRecordTypeCD) == SELRecordLength); /** @struct SELOEMRecordTypeEF * * IPMI SEL OEM Record - Type E0h-FFh */ struct SELOEMRecordTypeEF { uint16_t recordID; //!< Record ID. uint8_t recordType; //!< Record Type. uint8_t oemDefined[13]; //!< OEM Defined data. } __attribute__((packed)); static_assert(sizeof(SELOEMRecordTypeEF) == SELRecordLength); union SELEventRecordFormat { SELEventRecord eventRecord; SELOEMRecordTypeCD oemCD; SELOEMRecordTypeEF oemEF; }; /** @struct GetSELEntryResponse * * IPMI payload for Get SEL Entry command response. */ struct GetSELEntryResponse { uint16_t nextRecordID; //!< Next RecordID. SELEventRecordFormat event; // !< The Event Record. } __attribute__((packed)); static_assert(sizeof(GetSELEntryResponse) == SELRecordLength + sizeof(uint16_t)); static constexpr auto initiateErase = 0xAA; static constexpr auto getEraseStatus = 0x00; static constexpr auto eraseComplete = 0x01; /** @brief Convert logging entry to SEL * * @param[in] objPath - DBUS object path of the logging entry. * * @return On success return the response of Get SEL entry command. */ GetSELEntryResponse convertLogEntrytoSEL(const std::string& objPath); /** @brief Get the timestamp of the log entry * * @param[in] objPath - DBUS object path of the logging entry. * * @return On success return the timestamp of the log entry as number of * seconds from epoch. */ std::chrono::seconds getEntryTimeStamp(const std::string& objPath); /** @brief Read the logging entry object paths * * This API would read the logging dbus logging entry object paths and sorting * the filename in the numeric order. The paths is cleared before populating * the object paths. * * @param[in,out] paths - sorted list of logging entry object paths. * * @note This function is invoked when the Get SEL Info command or the Delete * SEL entry command is invoked. The Get SEL Entry command is preceded * typically by Get SEL Info command, so readLoggingObjectPaths is not * invoked before each Get SEL entry command. */ void readLoggingObjectPaths(ObjectPaths& paths); template std::string toHexStr(const T& data) { std::stringstream stream; stream << std::hex << std::uppercase << std::setfill('0'); for (const auto& v : data) { stream << std::setw(2) << static_cast(v); } return stream.str(); } namespace internal { /** @brief Convert logging entry to SEL event record * * @param[in] objPath - DBUS object path of the logging entry. * @param[in] iter - Iterator to the sensor data corresponding to the logging * entry * * @return On success return the SEL event record, throw an exception in case * of failure. */ GetSELEntryResponse prepareSELEntry(const std::string& objPath, ipmi::sensor::InvObjectIDMap::const_iterator iter); } // namespace internal } // namespace sel } // namespace ipmi