extensions/openpower-pels/user_header.hpp - openbmc/phosphor-logging - Gitiles

 #pragma once

 #include "data_interface.hpp"
 #include "elog_entry.hpp"
 #include "pel_values.hpp"
 #include "registry.hpp"
 #include "section.hpp"
 #include "stream.hpp"

 namespace openpower
 {
 namespace pels
 {

 static constexpr uint8_t userHeaderVersion = 0x01;
 static constexpr uint16_t actionFlagsDefault = 0xFFFF;

 /**
  * @class UserHeader
  *
  * This represents the User Header section in a PEL.  It is required,
  * and it is always the second section.
  *
  * The Section base class handles the section header structure that every
  * PEL section has at offset zero.
  *
  * The fields in this class directly correspond to the order and sizes of
  * the fields in the section.
  */
 class UserHeader : public Section
 {
   public:
     UserHeader() = delete;
     ~UserHeader() = default;
     UserHeader(const UserHeader&) = default;
     UserHeader& operator=(const UserHeader&) = default;
     UserHeader(UserHeader&&) = default;
     UserHeader& operator=(UserHeader&&) = default;

     /**
      * @brief Constructor
      *
      * Creates a valid UserHeader with the passed in data.
      *
      * @param[in] entry - The message registry entry for this error
      * @param[in] severity - The OpenBMC event log severity for this error
      * @param[in] additionalData - The AdditionalData properties in this
      *                             error log
      * @param[in] dataIface - The DataInterface object
      */
     UserHeader(const message::Entry& entry,
                phosphor::logging::Entry::Level severity,
                const AdditionalData& additionalData,
                const DataInterfaceBase& dataIface);

     /**
      * @brief Constructor
      *
      * Fills in this class's data fields from the stream.
      *
      * @param[in] pel - the PEL data stream
      */
     explicit UserHeader(Stream& pel);

     /**
      * @brief Flatten the section into the stream
      *
      * @param[in] stream - The stream to write to
      */
     void flatten(Stream& stream) const override;

     /**
      * @brief Returns the subsystem field.
      *
      * @return uint8_t - the subsystem
      */
     uint8_t subsystem() const
     {
         return _eventSubsystem;
     }

     /**
      * @brief Returns the event scope field.
      *
      * @return uint8_t - the event scope
      */
     uint8_t scope() const
     {
         return _eventScope;
     }

     /**
      * @brief Returns the severity field.
      *
      * @return uint8_t - the severity
      */
     uint8_t severity() const
     {
         return _eventSeverity;
     }

     /**
      * @brief Returns the event type field.
      *
      * @return uint8_t - the event type
      */
     uint8_t eventType() const
     {
         return _eventType;
     }

     /**
      * @brief Set the event type field
      *
      * @param[in] type - the new event type
      */
     void setEventType(uint8_t type)
     {
         _eventType = type;
     }

     /**
      * @brief Returns the problem domain field.
      *
      * @return uint8_t - the problem domain
      */
     uint8_t problemDomain() const
     {
         return _problemDomain;
     }

     /**
      * @brief Returns the problem vector field.
      *
      * @return uint8_t - the problem vector
      */
     uint8_t problemVector() const
     {
         return _problemVector;
     }

     /**
      * @brief Returns the action flags field.
      *
      * @return uint16_t - the action flags
      */
     uint16_t actionFlags() const
     {
         return _actionFlags;
     }

     /**
      * @brief Sets the action flags field
      *
      * @param[in] flags - the new action flags
      */
     void setActionFlags(uint16_t flags)
     {
         _actionFlags = flags;
     }

     /**
      * @brief Returns the host transmission state
      *
      * @return uint8_t - the host transmission state
      */
     uint8_t hostTransmissionState() const
     {
         return _states & 0xFF;
     }

     /**
      * @brief Sets the host transmission state
      *
      * @param[in] state - the new state
      */
     void setHostTransmissionState(uint8_t state)
     {
         _states &= 0xFFFFFF00;
         _states |= state;
     }

     /**
      * @brief Returns the HMC transmission state
      *
      * (HMC = Hardware Management Console)
      *
      * @return uint8_t - the HMC transmission state
      */
     uint8_t hmcTransmissionState() const
     {
         return (_states & 0x0000FF00) >> 8;
     }

     /**
      * @brief Sets the HMC transmission state
      *
      * @param[in] state - the new state
      */
     void setHMCTransmissionState(uint8_t state)
     {
         uint32_t newState = state << 8;
         _states &= 0xFFFF00FF;
         _states |= newState;
     }

     /**
      * @brief Returns the size of this section when flattened into a PEL
      *
      * @return size_t - the size of the section
      */
     static constexpr size_t flattenedSize()
     {
         return Section::flattenedSize() + sizeof(_eventSubsystem) +
                sizeof(_eventScope) + sizeof(_eventSeverity) +
                sizeof(_eventType) + sizeof(_reserved4Byte1) +
                sizeof(_problemDomain) + sizeof(_problemVector) +
                sizeof(_actionFlags) + sizeof(_states);
     }

     /**
      * @brief Get section in JSON.
      * @return std::optional<std::string> -User header section's JSON
      */
     std::optional<std::string> getJSON() const override;

   private:
     /**
      * @brief Fills in the object from the stream data
      *
      * @param[in] stream - The stream to read from
      */
     void unflatten(Stream& stream);

     /**
      * @brief Validates the section contents
      *
      * Updates _valid (in Section) with the results.
      */
     void validate() override;

     /**
      * @brief Returns the severity value to use from the list
      *        of them passed in based on the system type.
      *
      * If there isn't an entry found for the current system
      * type then std::nullopt will be returned.
      *
      * @param[in] severities - The array of {systype, severity}
      *                         structures to find an entry in.
      * @param[in] dataIface - The DataInterface object
      */
     std::optional<uint8_t>
         getSeverity(const std::vector<message::RegistrySeverity>& severities,
                     const DataInterfaceBase& dataIface) const;

     /**
      * @brief The subsystem associated with the event.
      */
     uint8_t _eventSubsystem;

     /**
      * @brief The event scope field.
      */
     uint8_t _eventScope;

     /**
      * @brief The event severity.
      */
     uint8_t _eventSeverity;

     /**
      * @brief The event type.
      */
     uint8_t _eventType;

     /**
      * @brief A reserved word placeholder
      */
     uint32_t _reserved4Byte1;

     /**
      * @brief The problem domain field.
      */
     uint8_t _problemDomain;

     /**
      * @brief The problem vector field.
      */
     uint8_t _problemVector;

     /**
      * @brief The action flags field.
      */
     uint16_t _actionFlags;

     /**
      * @brief The second reserved word that we are
      *        using for storing state information.
      *
      * 0x0000AABB
      *   Where:
      *      0xAA = HMC transmission state
      *      0xBB = Host transmission state
      */
     uint32_t _states;
 };

 } // namespace pels
 } // namespace openpower
	#pragma once

	#include "data_interface.hpp"
	#include "elog_entry.hpp"
	#include "pel_values.hpp"
	#include "registry.hpp"
	#include "section.hpp"
	#include "stream.hpp"

	namespace openpower
	{
	namespace pels
	{

	static constexpr uint8_t userHeaderVersion = 0x01;
	static constexpr uint16_t actionFlagsDefault = 0xFFFF;

	/**
	* @class UserHeader
	*
	* This represents the User Header section in a PEL. It is required,
	* and it is always the second section.
	*
	* The Section base class handles the section header structure that every
	* PEL section has at offset zero.
	*
	* The fields in this class directly correspond to the order and sizes of
	* the fields in the section.
	*/
	class UserHeader : public Section
	{
	public:
	UserHeader() = delete;
	~UserHeader() = default;
	UserHeader(const UserHeader&) = default;
	UserHeader& operator=(const UserHeader&) = default;
	UserHeader(UserHeader&&) = default;
	UserHeader& operator=(UserHeader&&) = default;

	/**
	* @brief Constructor
	*
	* Creates a valid UserHeader with the passed in data.
	*
	* @param[in] entry - The message registry entry for this error
	* @param[in] severity - The OpenBMC event log severity for this error
	* @param[in] additionalData - The AdditionalData properties in this
	* error log
	* @param[in] dataIface - The DataInterface object
	*/
	UserHeader(const message::Entry& entry,
	phosphor::logging::Entry::Level severity,
	const AdditionalData& additionalData,
	const DataInterfaceBase& dataIface);

	/**
	* @brief Constructor
	*
	* Fills in this class's data fields from the stream.
	*
	* @param[in] pel - the PEL data stream
	*/
	explicit UserHeader(Stream& pel);

	/**
	* @brief Flatten the section into the stream
	*
	* @param[in] stream - The stream to write to
	*/
	void flatten(Stream& stream) const override;

	/**
	* @brief Returns the subsystem field.
	*
	* @return uint8_t - the subsystem
	*/
	uint8_t subsystem() const
	{
	return _eventSubsystem;
	}

	/**
	* @brief Returns the event scope field.
	*
	* @return uint8_t - the event scope
	*/
	uint8_t scope() const
	{
	return _eventScope;
	}

	/**
	* @brief Returns the severity field.
	*
	* @return uint8_t - the severity
	*/
	uint8_t severity() const
	{
	return _eventSeverity;
	}

	/**
	* @brief Returns the event type field.
	*
	* @return uint8_t - the event type
	*/
	uint8_t eventType() const
	{
	return _eventType;
	}

	/**
	* @brief Set the event type field
	*
	* @param[in] type - the new event type
	*/
	void setEventType(uint8_t type)
	{
	_eventType = type;
	}

	/**
	* @brief Returns the problem domain field.
	*
	* @return uint8_t - the problem domain
	*/
	uint8_t problemDomain() const
	{
	return _problemDomain;
	}

	/**
	* @brief Returns the problem vector field.
	*
	* @return uint8_t - the problem vector
	*/
	uint8_t problemVector() const
	{
	return _problemVector;
	}

	/**
	* @brief Returns the action flags field.
	*
	* @return uint16_t - the action flags
	*/
	uint16_t actionFlags() const
	{
	return _actionFlags;
	}

	/**
	* @brief Sets the action flags field
	*
	* @param[in] flags - the new action flags
	*/
	void setActionFlags(uint16_t flags)
	{
	_actionFlags = flags;
	}

	/**
	* @brief Returns the host transmission state
	*
	* @return uint8_t - the host transmission state
	*/
	uint8_t hostTransmissionState() const
	{
	return _states & 0xFF;
	}

	/**
	* @brief Sets the host transmission state
	*
	* @param[in] state - the new state
	*/
	void setHostTransmissionState(uint8_t state)
	{
	_states &= 0xFFFFFF00;
	_states \|= state;
	}

	/**
	* @brief Returns the HMC transmission state
	*
	* (HMC = Hardware Management Console)
	*
	* @return uint8_t - the HMC transmission state
	*/
	uint8_t hmcTransmissionState() const
	{
	return (_states & 0x0000FF00) >> 8;
	}

	/**
	* @brief Sets the HMC transmission state
	*
	* @param[in] state - the new state
	*/
	void setHMCTransmissionState(uint8_t state)
	{
	uint32_t newState = state << 8;
	_states &= 0xFFFF00FF;
	_states \|= newState;
	}

	/**
	* @brief Returns the size of this section when flattened into a PEL
	*
	* @return size_t - the size of the section
	*/
	static constexpr size_t flattenedSize()
	{
	return Section::flattenedSize() + sizeof(_eventSubsystem) +
	sizeof(_eventScope) + sizeof(_eventSeverity) +
	sizeof(_eventType) + sizeof(_reserved4Byte1) +
	sizeof(_problemDomain) + sizeof(_problemVector) +
	sizeof(_actionFlags) + sizeof(_states);
	}

	/**
	* @brief Get section in JSON.
	* @return std::optional<std::string> -User header section's JSON
	*/
	std::optional<std::string> getJSON() const override;

	private:
	/**
	* @brief Fills in the object from the stream data
	*
	* @param[in] stream - The stream to read from
	*/
	void unflatten(Stream& stream);

	/**
	* @brief Validates the section contents
	*
	* Updates _valid (in Section) with the results.
	*/
	void validate() override;

	/**
	* @brief Returns the severity value to use from the list
	* of them passed in based on the system type.
	*
	* If there isn't an entry found for the current system
	* type then std::nullopt will be returned.
	*
	* @param[in] severities - The array of {systype, severity}
	* structures to find an entry in.
	* @param[in] dataIface - The DataInterface object
	*/
	std::optional<uint8_t>
	getSeverity(const std::vector<message::RegistrySeverity>& severities,
	const DataInterfaceBase& dataIface) const;

	/**
	* @brief The subsystem associated with the event.
	*/
	uint8_t _eventSubsystem;

	/**
	* @brief The event scope field.
	*/
	uint8_t _eventScope;

	/**
	* @brief The event severity.
	*/
	uint8_t _eventSeverity;

	/**
	* @brief The event type.
	*/
	uint8_t _eventType;

	/**
	* @brief A reserved word placeholder
	*/
	uint32_t _reserved4Byte1;

	/**
	* @brief The problem domain field.
	*/
	uint8_t _problemDomain;

	/**
	* @brief The problem vector field.
	*/
	uint8_t _problemVector;

	/**
	* @brief The action flags field.
	*/
	uint16_t _actionFlags;

	/**
	* @brief The second reserved word that we are
	* using for storing state information.
	*
	* 0x0000AABB
	* Where:
	* 0xAA = HMC transmission state
	* 0xBB = Host transmission state
	*/
	uint32_t _states;
	};

	} // namespace pels
	} // namespace openpower