libpldmresponder/bios_config.hpp - openbmc/pldm - Gitiles

 #pragma once

 #include "bios_attribute.hpp"
 #include "bios_table.hpp"
 #include "common/instance_id.hpp"
 #include "oem_handler.hpp"
 #include "platform_config.hpp"
 #include "requester/handler.hpp"

 #include <libpldm/bios_table.h>

 #include <nlohmann/json.hpp>
 #include <phosphor-logging/lg2.hpp>

 #include <functional>
 #include <iostream>
 #include <memory>
 #include <optional>
 #include <set>
 #include <string>
 #include <vector>

 PHOSPHOR_LOG2_USING;

 namespace pldm
 {
 namespace responder
 {
 namespace bios
 {
 enum class BoundType
 {
     LowerBound,
     UpperBound,
     ScalarIncrement,
     MinStringLength,
     MaxStringLength,
     OneOf
 };

 using AttributeName = std::string;
 using AttributeType = std::string;
 using ReadonlyStatus = bool;
 using DisplayName = std::string;
 using Description = std::string;
 using MenuPath = std::string;
 using CurrentValue = std::variant<int64_t, std::string>;
 using DefaultValue = std::variant<int64_t, std::string>;
 using OptionString = std::string;
 using OptionValue = std::variant<int64_t, std::string>;
 using ValueDisplayName = std::string;
 using Option =
     std::vector<std::tuple<OptionString, OptionValue, ValueDisplayName>>;
 using BIOSTableObj =
     std::tuple<AttributeType, ReadonlyStatus, DisplayName, Description,
                MenuPath, CurrentValue, DefaultValue, Option>;
 using BaseBIOSTable = std::map<AttributeName, BIOSTableObj>;

 using PendingObj = std::tuple<AttributeType, CurrentValue>;
 using PendingAttributes = std::map<AttributeName, PendingObj>;
 using Callback = std::function<void()>;

 /** @class BIOSConfig
  *  @brief Manager BIOS Attributes
  */
 class BIOSConfig
 {
   public:
     BIOSConfig() = delete;
     BIOSConfig(const BIOSConfig&) = delete;
     BIOSConfig(BIOSConfig&&) = delete;
     BIOSConfig& operator=(const BIOSConfig&) = delete;
     BIOSConfig& operator=(BIOSConfig&&) = delete;
     ~BIOSConfig() = default;

     /** @brief Construct BIOSConfig
      *  @param[in] jsonDir - The directory where json file exists
      *  @param[in] tableDir - The directory where the persistent table is placed
      *  @param[in] dbusHandler - Dbus Handler
      *  @param[in] fd - socket descriptor to communicate to host
      *  @param[in] eid - MCTP EID of host firmware
      *  @param[in] instanceIdDb - pointer to an InstanceIdDb object
      *  @param[in] handler - PLDM request handler
      *  @param[in] platformConfigHandler - pointer to platform config Handler
      *  @param[in] requestPLDMServiceName - Callback for claiming the PLDM
      *             service name Called only after building BIOS tables.
      */
     explicit BIOSConfig(
         const char* jsonDir, const char* tableDir,
         pldm::utils::DBusHandler* const dbusHandler, int fd, uint8_t eid,
         pldm::InstanceIdDb* instanceIdDb,
         pldm::requester::Handler<pldm::requester::Request>* handler,
         pldm::responder::platform_config::Handler* platformConfigHandler,
         pldm::responder::bios::Callback requestPLDMServiceName);

     /** @brief Set attribute value on dbus and attribute value table
      *  @param[in] entry - attribute value entry
      *  @param[in] size - size of the attribute value entry
      *  @param[in] isBMC - indicates if the attribute is set by BMC
      *  @param[in] updateDBus          - update Attr value D-Bus property
      *                                   if this is set to true
      *  @param[in] updateBaseBIOSTable - update BaseBIOSTable D-Bus property
      *                                   if this is set to true
      *  @return pldm_completion_codes
      */
     int setAttrValue(const void* entry, size_t size, bool isBMC,
                      bool updateDBus = true, bool updateBaseBIOSTable = true);

     /** @brief Remove the persistent tables */
     void removeTables();

     /** @brief Build bios tables(string,attribute,attribute value table)*/
     void buildTables();

     /** @brief Get BIOS table of specified type
      *  @param[in] tableType - The table type
      *  @return The bios table, std::nullopt if the table is unaviliable
      */
     std::optional<Table> getBIOSTable(pldm_bios_table_types tableType);

     /** @brief set BIOS table
      *  @param[in] tableType - Indicates what table is being transferred
      *             {BIOSStringTable=0x0, BIOSAttributeTable=0x1,
      *              BIOSAttributeValueTable=0x2}
      *  @param[in] table - table data
      *  @param[in] updateBaseBIOSTable - update BaseBIOSTable D-Bus property
      *                                   if this is set to true
      *  @return pldm_completion_codes
      */
     int setBIOSTable(uint8_t tableType, const Table& table,
                      bool updateBaseBIOSTable = true);

     /** @brief Construct the BIOS Attributes and build the tables
      *         after receiving system type from entity manager.
      *         Also register the Service Name only if
      *         System specific Bios attributes are supported
      *  @param[in] String - System Type
      *  @param[in] bool - flag to register service name
      *  @return void
      */
     void initBIOSAttributes(const std::string& sysType, bool registerService);

   private:
     /** @enum Index into the fields in the BaseBIOSTable
      */
     enum class Index : uint8_t
     {
         attributeType = 0,
         readOnly,
         displayName,
         description,
         menuPath,
         currentValue,
         defaultValue,
         options,
     };

     const fs::path jsonDir;
     const fs::path tableDir;
     pldm::utils::DBusHandler* const dbusHandler;
     BaseBIOSTable baseBIOSTableMaps;

     /** @brief socket descriptor to communicate to host */
     int fd;

     /** @brief MCTP EID of host firmware */
     uint8_t eid;

     /** @brief pointer to an Instance ID database object, used to obtain PLDM
      * instance IDs.
      */
     pldm::InstanceIdDb* instanceIdDb;

     /** @brief PLDM request handler */
     pldm::requester::Handler<pldm::requester::Request>* handler;

     /** @brief platform config Handler*/
     pldm::responder::platform_config::Handler* platformConfigHandler;

     /** @brief Callback for registering the PLDM service name */
     pldm::responder::bios::Callback requestPLDMServiceName;

     // vector persists all attributes
     using BIOSAttributes = std::vector<std::unique_ptr<BIOSAttribute>>;
     BIOSAttributes biosAttributes;

     using propName = std::string;
     using DbusChObjProperties = std::map<propName, pldm::utils::PropertyValue>;

     using ifaceName = std::string;
     using DbusIfacesAdded = std::map<ifaceName, DbusChObjProperties>;

     // vector to catch the D-Bus property change signals for BIOS attributes
     std::vector<std::unique_ptr<sdbusplus::bus::match_t>> biosAttrMatch;

     /** @brief system type/model */
     std::string sysType;

     /** @brief Method to update a BIOS attribute when the corresponding Dbus
      *  property is changed
      *  @param[in] chProperties - list of properties which have changed
      *  @param[in] biosAttrIndex - Index of BIOSAttribute pointer in
      * biosAttributes
      *  @return - none
      */
     void processBiosAttrChangeNotification(
         const DbusChObjProperties& chProperties, uint32_t biosAttrIndex);

     /** @brief Method is used to initiate bios attributes only if system type
      *  is already populated by entity manager.
      *  Register the callback if system type is yet to be populated by Entity
      * manager
      */
     void checkSystemTypeAvailability();

     /** @brief Construct an attribute and persist it
      *  @tparam T - attribute type
      *  @param[in] entry - json entry
      */
     template <typename T>
     void constructAttribute(const Json& entry)
     {
         try
         {
             biosAttributes.push_back(std::make_unique<T>(entry, dbusHandler));
             auto biosAttrIndex = biosAttributes.size() - 1;
             auto dBusMap = biosAttributes[biosAttrIndex]->getDBusMap();

             if (dBusMap.has_value())
             {
                 using namespace sdbusplus::bus::match::rules;
                 biosAttrMatch.push_back(
                     std::make_unique<sdbusplus::bus::match_t>(
                         pldm::utils::DBusHandler::getBus(),
                         propertiesChanged(dBusMap->objectPath,
                                           dBusMap->interface),
                         [this, biosAttrIndex](sdbusplus::message_t& msg) {
                     DbusChObjProperties props;
                     std::string iface;
                     msg.read(iface, props);
                     processBiosAttrChangeNotification(props, biosAttrIndex);
                 }));

                 biosAttrMatch.push_back(
                     std::make_unique<sdbusplus::bus::match_t>(
                         pldm::utils::DBusHandler::getBus(),
                         interfacesAdded() + argNpath(0, dBusMap->objectPath),
                         [this, biosAttrIndex, interface = dBusMap->interface](
                             sdbusplus::message_t& msg) {
                     sdbusplus::message::object_path path;
                     DbusIfacesAdded interfaces;

                     msg.read(path, interfaces);
                     auto ifaceIt = interfaces.find(interface);
                     if (ifaceIt != interfaces.end())
                     {
                         processBiosAttrChangeNotification(ifaceIt->second,
                                                           biosAttrIndex);
                     }
                 }));
             }
         }
         catch (const std::exception& e)
         {
             error("Constructs Attribute Error, {ERR_EXCEP}", "ERR_EXCEP",
                   e.what());
         }
     }

     /** Construct attributes and persist them */
     void constructAttributes();

     using ParseHandler = std::function<void(const Json& entry)>;

     /** @brief Helper function to parse json
      *  @param[in] filePath - Path of json file
      *  @param[in] handler - Handler to process each entry in the json
      */
     void load(const fs::path& filePath, ParseHandler handler);

     /** @brief Build String Table and persist it
      *  @return The built string table, std::nullopt if it fails.
      */
     std::optional<Table> buildAndStoreStringTable();

     /** @brief Build attribute table and attribute value table and persist them
      *         Read the BaseBIOSTable from the bios-settings-manager and update
      *         attribute table and attribute value table.
      *
      *  @param[in] stringTable - The string Table
      */
     void buildAndStoreAttrTables(const Table& stringTable);

     /** @brief Persist the table
      *  @param[in] path - Path to persist the table
      *  @param[in] table - The table
      */
     void storeTable(const fs::path& path, const Table& table);

     /** @brief Load bios table to ram
      *  @param[in] path - Path of the table
      *  @return The table, std::nullopt if loading fails
      */
     std::optional<Table> loadTable(const fs::path& path);

     /** @brief Method to decode the attribute name from the string handle
      *
      *  @param[in] stringEntry - string entry from string table
      *  @return the decoded string
      */
     std::string decodeStringFromStringEntry(
         const pldm_bios_string_table_entry* stringEntry);

     /** @brief Method to print the string Handle by passing the attribute Handle
      *         of the bios attribute that got updated
      *
      *  @param[in] handle - the Attribute handle of the bios attribute
      *  @param[in] index - index to the possible value handles
      *  @param[in] attrTable - the attribute table
      *  @param[in] stringTable - the string table
      *  @return string handle from the string table and decoded string to the
      * name handle
      */
     std::string displayStringHandle(uint16_t handle, uint8_t index,
                                     const std::optional<Table>& attrTable,
                                     const std::optional<Table>& stringTable);

     /** @brief Method to trace the bios attribute which got changed
      *
      *  @param[in] attrValueEntry - The attribute value entry to update
      *  @param[in] attrEntry - The attribute table entry
      *  @param[in] isBMC - indicates if the attribute is set by BMC
      */
     void traceBIOSUpdate(const pldm_bios_attr_val_table_entry* attrValueEntry,
                          const pldm_bios_attr_table_entry* attrEntry,
                          bool isBMC);

     /** @brief Check the attribute value to update
      *  @param[in] attrValueEntry - The attribute value entry to update
      *  @param[in] attrEntry - The attribute table entry
      *  @param[in] stringTable - The string  table
      *  @return pldm_completion_codes
      */
     int checkAttrValueToUpdate(
         const pldm_bios_attr_val_table_entry* attrValueEntry,
         const pldm_bios_attr_table_entry* attrEntry, Table& stringTable);

     /** @brief Check the attribute table
      *  @param[in] table - The table
      *  @return pldm_completion_codes
      */
     int checkAttributeTable(const Table& table);

     /** @brief Check the attribute value table
      *  @param[in] table - The table
      *  @return pldm_completion_codes
      */
     int checkAttributeValueTable(const Table& table);

     /** @brief Update the BaseBIOSTable property of the D-Bus interface
      */
     void updateBaseBIOSTableProperty();

     /** @brief Listen the PendingAttributes property of the D-Bus interface and
      *         update BaseBIOSTable
      */
     void listenPendingAttributes();

     /** @brief Find attribute handle from bios attribute table
      *  @param[in] attrName - attribute name
      *  @return attribute handle
      */
     uint16_t findAttrHandle(const std::string& attrName);

     /** @brief Listen the PendingAttributes property of the D-Bus interface
      * and update BaseBIOSTable
      *  @param[in] msg - Data associated with subscribed signal
      */
     void constructPendingAttribute(const PendingAttributes& pendingAttributes);
 };

 } // namespace bios
 } // namespace responder
 } // namespace pldm
	#pragma once

	#include "bios_attribute.hpp"
	#include "bios_table.hpp"
	#include "common/instance_id.hpp"
	#include "oem_handler.hpp"
	#include "platform_config.hpp"
	#include "requester/handler.hpp"

	#include <libpldm/bios_table.h>

	#include <nlohmann/json.hpp>
	#include <phosphor-logging/lg2.hpp>

	#include <functional>
	#include <iostream>
	#include <memory>
	#include <optional>
	#include <set>
	#include <string>
	#include <vector>

	PHOSPHOR_LOG2_USING;

	namespace pldm
	{
	namespace responder
	{
	namespace bios
	{
	enum class BoundType
	{
	LowerBound,
	UpperBound,
	ScalarIncrement,
	MinStringLength,
	MaxStringLength,
	OneOf
	};

	using AttributeName = std::string;
	using AttributeType = std::string;
	using ReadonlyStatus = bool;
	using DisplayName = std::string;
	using Description = std::string;
	using MenuPath = std::string;
	using CurrentValue = std::variant<int64_t, std::string>;
	using DefaultValue = std::variant<int64_t, std::string>;
	using OptionString = std::string;
	using OptionValue = std::variant<int64_t, std::string>;
	using ValueDisplayName = std::string;
	using Option =
	std::vector<std::tuple<OptionString, OptionValue, ValueDisplayName>>;
	using BIOSTableObj =
	std::tuple<AttributeType, ReadonlyStatus, DisplayName, Description,
	MenuPath, CurrentValue, DefaultValue, Option>;
	using BaseBIOSTable = std::map<AttributeName, BIOSTableObj>;

	using PendingObj = std::tuple<AttributeType, CurrentValue>;
	using PendingAttributes = std::map<AttributeName, PendingObj>;
	using Callback = std::function<void()>;

	/** @class BIOSConfig
	* @brief Manager BIOS Attributes
	*/
	class BIOSConfig
	{
	public:
	BIOSConfig() = delete;
	BIOSConfig(const BIOSConfig&) = delete;
	BIOSConfig(BIOSConfig&&) = delete;
	BIOSConfig& operator=(const BIOSConfig&) = delete;
	BIOSConfig& operator=(BIOSConfig&&) = delete;
	~BIOSConfig() = default;

	/** @brief Construct BIOSConfig
	* @param[in] jsonDir - The directory where json file exists
	* @param[in] tableDir - The directory where the persistent table is placed
	* @param[in] dbusHandler - Dbus Handler
	* @param[in] fd - socket descriptor to communicate to host
	* @param[in] eid - MCTP EID of host firmware
	* @param[in] instanceIdDb - pointer to an InstanceIdDb object
	* @param[in] handler - PLDM request handler
	* @param[in] platformConfigHandler - pointer to platform config Handler
	* @param[in] requestPLDMServiceName - Callback for claiming the PLDM
	* service name Called only after building BIOS tables.
	*/
	explicit BIOSConfig(
	const char* jsonDir, const char* tableDir,
	pldm::utils::DBusHandler* const dbusHandler, int fd, uint8_t eid,
	pldm::InstanceIdDb* instanceIdDb,
	pldm::requester::Handler<pldm::requester::Request>* handler,
	pldm::responder::platform_config::Handler* platformConfigHandler,
	pldm::responder::bios::Callback requestPLDMServiceName);

	/** @brief Set attribute value on dbus and attribute value table
	* @param[in] entry - attribute value entry
	* @param[in] size - size of the attribute value entry
	* @param[in] isBMC - indicates if the attribute is set by BMC
	* @param[in] updateDBus - update Attr value D-Bus property
	* if this is set to true
	* @param[in] updateBaseBIOSTable - update BaseBIOSTable D-Bus property
	* if this is set to true
	* @return pldm_completion_codes
	*/
	int setAttrValue(const void* entry, size_t size, bool isBMC,
	bool updateDBus = true, bool updateBaseBIOSTable = true);

	/** @brief Remove the persistent tables */
	void removeTables();

	/** @brief Build bios tables(string,attribute,attribute value table)*/
	void buildTables();

	/** @brief Get BIOS table of specified type
	* @param[in] tableType - The table type
	* @return The bios table, std::nullopt if the table is unaviliable
	*/
	std::optional<Table> getBIOSTable(pldm_bios_table_types tableType);

	/** @brief set BIOS table
	* @param[in] tableType - Indicates what table is being transferred
	* {BIOSStringTable=0x0, BIOSAttributeTable=0x1,
	* BIOSAttributeValueTable=0x2}
	* @param[in] table - table data
	* @param[in] updateBaseBIOSTable - update BaseBIOSTable D-Bus property
	* if this is set to true
	* @return pldm_completion_codes
	*/
	int setBIOSTable(uint8_t tableType, const Table& table,
	bool updateBaseBIOSTable = true);

	/** @brief Construct the BIOS Attributes and build the tables
	* after receiving system type from entity manager.
	* Also register the Service Name only if
	* System specific Bios attributes are supported
	* @param[in] String - System Type
	* @param[in] bool - flag to register service name
	* @return void
	*/
	void initBIOSAttributes(const std::string& sysType, bool registerService);

	private:
	/** @enum Index into the fields in the BaseBIOSTable
	*/
	enum class Index : uint8_t
	{
	attributeType = 0,
	readOnly,
	displayName,
	description,
	menuPath,
	currentValue,
	defaultValue,
	options,
	};

	const fs::path jsonDir;
	const fs::path tableDir;
	pldm::utils::DBusHandler* const dbusHandler;
	BaseBIOSTable baseBIOSTableMaps;

	/** @brief socket descriptor to communicate to host */
	int fd;

	/** @brief MCTP EID of host firmware */
	uint8_t eid;

	/** @brief pointer to an Instance ID database object, used to obtain PLDM
	* instance IDs.
	*/
	pldm::InstanceIdDb* instanceIdDb;

	/** @brief PLDM request handler */
	pldm::requester::Handler<pldm::requester::Request>* handler;

	/** @brief platform config Handler*/
	pldm::responder::platform_config::Handler* platformConfigHandler;

	/** @brief Callback for registering the PLDM service name */
	pldm::responder::bios::Callback requestPLDMServiceName;

	// vector persists all attributes
	using BIOSAttributes = std::vector<std::unique_ptr<BIOSAttribute>>;
	BIOSAttributes biosAttributes;

	using propName = std::string;
	using DbusChObjProperties = std::map<propName, pldm::utils::PropertyValue>;

	using ifaceName = std::string;
	using DbusIfacesAdded = std::map<ifaceName, DbusChObjProperties>;

	// vector to catch the D-Bus property change signals for BIOS attributes
	std::vector<std::unique_ptr<sdbusplus::bus::match_t>> biosAttrMatch;

	/** @brief system type/model */
	std::string sysType;

	/** @brief Method to update a BIOS attribute when the corresponding Dbus
	* property is changed
	* @param[in] chProperties - list of properties which have changed
	* @param[in] biosAttrIndex - Index of BIOSAttribute pointer in
	* biosAttributes
	* @return - none
	*/
	void processBiosAttrChangeNotification(
	const DbusChObjProperties& chProperties, uint32_t biosAttrIndex);

	/** @brief Method is used to initiate bios attributes only if system type
	* is already populated by entity manager.
	* Register the callback if system type is yet to be populated by Entity
	* manager
	*/
	void checkSystemTypeAvailability();

	/** @brief Construct an attribute and persist it
	* @tparam T - attribute type
	* @param[in] entry - json entry
	*/
	template <typename T>
	void constructAttribute(const Json& entry)
	{
	try
	{
	biosAttributes.push_back(std::make_unique<T>(entry, dbusHandler));
	auto biosAttrIndex = biosAttributes.size() - 1;
	auto dBusMap = biosAttributes[biosAttrIndex]->getDBusMap();

	if (dBusMap.has_value())
	{
	using namespace sdbusplus::bus::match::rules;
	biosAttrMatch.push_back(
	std::make_unique<sdbusplus::bus::match_t>(
	pldm::utils::DBusHandler::getBus(),
	propertiesChanged(dBusMap->objectPath,
	dBusMap->interface),
	[this, biosAttrIndex](sdbusplus::message_t& msg) {
	DbusChObjProperties props;
	std::string iface;
	msg.read(iface, props);
	processBiosAttrChangeNotification(props, biosAttrIndex);
	}));

	biosAttrMatch.push_back(
	std::make_unique<sdbusplus::bus::match_t>(
	pldm::utils::DBusHandler::getBus(),
	interfacesAdded() + argNpath(0, dBusMap->objectPath),
	[this, biosAttrIndex, interface = dBusMap->interface](
	sdbusplus::message_t& msg) {
	sdbusplus::message::object_path path;
	DbusIfacesAdded interfaces;

	msg.read(path, interfaces);
	auto ifaceIt = interfaces.find(interface);
	if (ifaceIt != interfaces.end())
	{
	processBiosAttrChangeNotification(ifaceIt->second,
	biosAttrIndex);
	}
	}));
	}
	}
	catch (const std::exception& e)
	{
	error("Constructs Attribute Error, {ERR_EXCEP}", "ERR_EXCEP",
	e.what());
	}
	}

	/** Construct attributes and persist them */
	void constructAttributes();

	using ParseHandler = std::function<void(const Json& entry)>;

	/** @brief Helper function to parse json
	* @param[in] filePath - Path of json file
	* @param[in] handler - Handler to process each entry in the json
	*/
	void load(const fs::path& filePath, ParseHandler handler);

	/** @brief Build String Table and persist it
	* @return The built string table, std::nullopt if it fails.
	*/
	std::optional<Table> buildAndStoreStringTable();

	/** @brief Build attribute table and attribute value table and persist them
	* Read the BaseBIOSTable from the bios-settings-manager and update
	* attribute table and attribute value table.
	*
	* @param[in] stringTable - The string Table
	*/
	void buildAndStoreAttrTables(const Table& stringTable);

	/** @brief Persist the table
	* @param[in] path - Path to persist the table
	* @param[in] table - The table
	*/
	void storeTable(const fs::path& path, const Table& table);

	/** @brief Load bios table to ram
	* @param[in] path - Path of the table
	* @return The table, std::nullopt if loading fails
	*/
	std::optional<Table> loadTable(const fs::path& path);

	/** @brief Method to decode the attribute name from the string handle
	*
	* @param[in] stringEntry - string entry from string table
	* @return the decoded string
	*/
	std::string decodeStringFromStringEntry(
	const pldm_bios_string_table_entry* stringEntry);

	/** @brief Method to print the string Handle by passing the attribute Handle
	* of the bios attribute that got updated
	*
	* @param[in] handle - the Attribute handle of the bios attribute
	* @param[in] index - index to the possible value handles
	* @param[in] attrTable - the attribute table
	* @param[in] stringTable - the string table
	* @return string handle from the string table and decoded string to the
	* name handle
	*/
	std::string displayStringHandle(uint16_t handle, uint8_t index,
	const std::optional<Table>& attrTable,
	const std::optional<Table>& stringTable);

	/** @brief Method to trace the bios attribute which got changed
	*
	* @param[in] attrValueEntry - The attribute value entry to update
	* @param[in] attrEntry - The attribute table entry
	* @param[in] isBMC - indicates if the attribute is set by BMC
	*/
	void traceBIOSUpdate(const pldm_bios_attr_val_table_entry* attrValueEntry,
	const pldm_bios_attr_table_entry* attrEntry,
	bool isBMC);

	/** @brief Check the attribute value to update
	* @param[in] attrValueEntry - The attribute value entry to update
	* @param[in] attrEntry - The attribute table entry
	* @param[in] stringTable - The string table
	* @return pldm_completion_codes
	*/
	int checkAttrValueToUpdate(
	const pldm_bios_attr_val_table_entry* attrValueEntry,
	const pldm_bios_attr_table_entry* attrEntry, Table& stringTable);

	/** @brief Check the attribute table
	* @param[in] table - The table
	* @return pldm_completion_codes
	*/
	int checkAttributeTable(const Table& table);

	/** @brief Check the attribute value table
	* @param[in] table - The table
	* @return pldm_completion_codes
	*/
	int checkAttributeValueTable(const Table& table);

	/** @brief Update the BaseBIOSTable property of the D-Bus interface
	*/
	void updateBaseBIOSTableProperty();

	/** @brief Listen the PendingAttributes property of the D-Bus interface and
	* update BaseBIOSTable
	*/
	void listenPendingAttributes();

	/** @brief Find attribute handle from bios attribute table
	* @param[in] attrName - attribute name
	* @return attribute handle
	*/
	uint16_t findAttrHandle(const std::string& attrName);

	/** @brief Listen the PendingAttributes property of the D-Bus interface
	* and update BaseBIOSTable
	* @param[in] msg - Data associated with subscribed signal
	*/
	void constructPendingAttribute(const PendingAttributes& pendingAttributes);
	};

	} // namespace bios
	} // namespace responder
	} // namespace pldm