blob: e48e7d5b4ce83edbe1d9fbab8ba87ffb81d5c4e0 [file] [log] [blame]
#pragma once
#include "parser_interface.hpp"
#include "types.hpp"
namespace vpd
{
namespace keyword
{
namespace parser
{
using ParserInterface = openpower::vpd::parser::interface::ParserInterface;
using kwdVpdMap = openpower::vpd::inventory::KeywordVpdMap;
using store = openpower::vpd::Store;
/**
* @class KeywordVpdParser
* @brief Implements parser for Keyword VPD
*
* KeywordVpdParser object must be constructed by passing in
* Keyword VPD in binary format. To parse the VPD, call the
* kwVpdParser() method. The kwVpdParser() method returns
* a map of keyword-value pairs.
*
* Following is the algorithm used to parse Keyword VPD data:
* 1) Validate if the first byte is 'largeResourceIdentifierString'.
* 2) Validate the byte after the description is 'vendor defined large resource
* type tag'.
* 3) For each keyword-value pairs :
* 3.1) Parse the 2 byte length keyword and emplace it in the map as 'key'.
* 3.2) Parse over the value bytes corresponding to the keyword and
* emplace it in the map as 'value' for the key inserted in 3.1.
* 4) Validate the byte before checksum byte is 'small resource type end tag'.
* 5) Validate the checksum.
* 6) Validate the 'small resource type last end tag'.
* 7) Return the keyword-value map.
*/
class KeywordVpdParser : public ParserInterface
{
public:
KeywordVpdParser() = delete;
KeywordVpdParser(const KeywordVpdParser&) = delete;
KeywordVpdParser(KeywordVpdParser&&) = delete;
~KeywordVpdParser() = default;
/**
* @brief Constructor
*
* Move kwVpdVector to parser object's kwVpdVector
*/
KeywordVpdParser(const openpower::vpd::Binary& kwVpdVector) :
keywordVpdVector(kwVpdVector)
{
}
/**
* @brief Parse the keyword VPD binary data.
* Calls the sub functions to emplace the
* keyword-value pairs in map and to validate
* certain tags and checksum data.
*
* @return map of keyword:value
*/
std::variant<kwdVpdMap, store> parse();
/**
* @brief An api to return interface name with respect to
* the parser selected.
*
* @return - Interface name for that vpd type.
*/
std::string getInterfaceName() const;
private:
openpower::vpd::Binary::const_iterator
checkSumStart; //!< Pointer to the start byte from where
//!< the checksum need to be calculated
openpower::vpd::Binary::const_iterator
checkSumEnd; //!< Pointer to the end byte until which the
//!< checksum need to be calculated
openpower::vpd::Binary::const_iterator
kwVpdIterator; //!< Iterator to parse the vector
const openpower::vpd::Binary&
keywordVpdVector; //!< Vector which stores keyword VPD data
/**
* @brief Validate the large resource identifier string
*/
void validateLargeResourceIdentifierString();
/**
* @brief Validate the type of keyword VPD
*
* @return integer representing the type of kw VPD.
*/
int validateTheTypeOfKwVpd();
/**
* @brief Parsing keyword-value pairs and emplace into Map.
*
* @return map of keyword:value
*/
openpower::vpd::inventory::KeywordVpdMap kwValParser();
/**
* @brief Validate small resource type end tag
*/
void validateSmallResourceTypeEnd();
/**
* @brief Validate checksum.
*
* Finding the 2's complement of sum of all the
* keywords,values and large resource identifier string.
*/
void validateChecksum();
/**
* @brief Validate small resource type last end tag
*/
void validateSmallResourceTypeLastEnd();
/**
* @brief Get the size of the keyword
*
* @return one byte length size data
*/
size_t getKwDataSize();
/**
* @brief Check for iterator Out of Bound exception
*
* Check if no.of elements from (begining of the vector) to (iterator +
* incVar) is lesser than or equal to the total no.of elements in the
* vector. This check is performed before the advancement of the iterator.
*
* @param[incVar] - no.of positions the iterator is going to be iterated
*/
void itrOutOfBoundCheck(uint8_t incVar);
};
} // namespace parser
} // namespace keyword
} // namespace vpd