#pragma once #include "store.hpp" #include namespace openpower { namespace vpd { namespace parser { namespace keyword { /** @brief Encoding scheme of a VPD keyword's data */ enum class Encoding { ASCII, /**< data encoded in ascii */ RAW, /**< raw data */ // Keywords needing custom decoding B1, /**< The keyword B1 needs to be decoded specially */ UD /**< Special decoding of UD meant for UUID */ }; } // namespace keyword namespace internal { using KeywordInfo = std::tuple; using OffsetList = std::vector; using KeywordMap = Parsed::mapped_type; } // namespace internal /** @class Impl * @brief Implements parser for OpenPOWER VPD * * An Impl object must be constructed by passing in OpenPOWER VPD in * binary format. To parse the VPD, call the run() method. The run() * method returns an openpower::vpd::Store object, which contains * parsed VPD, and provides access methods for the VPD. * * Following is the algorithm used to parse OpenPOWER VPD: * 1) Validate that the first record is VHDR, the header record. * 2) From the VHDR record, get the offset of the VTOC record, * which is the table of contents record. * 3) Process the VTOC record - note offsets of supported records. * 4) For each supported record : * 4.1) Jump to record via offset. Add record name to parser output. * 4.2) Process record - for each contained and supported keyword: * 4.2.1) Note keyword name and value, associate this information to * to the record noted in step 4.1). */ class Impl { public: Impl() = delete; Impl(const Impl&) = delete; Impl& operator=(const Impl&) = delete; Impl(Impl&&) = delete; Impl& operator=(Impl&&) = delete; ~Impl() = default; /** @brief Construct an Impl * * @param[in] vpdBuffer - Binary OpenPOWER VPD */ explicit Impl(Binary&& vpdBuffer) : vpd(std::move(vpdBuffer)), out{} { } /** @brief Run the parser on binary OpenPOWER VPD * * @returns openpower::vpd::Store object */ Store run(); private: /** @brief Process the table of contents record, VHDR * * @returns List of offsets to records in VPD */ internal::OffsetList readTOC() const; /** @brief Read the PT keyword contained in the VHDR record, * to obtain offsets to other records in the VPD. * * @param[in] iterator - iterator to buffer containing VPD * @param[in] ptLength - Length of PT keyword data * * @returns List of offsets to records in VPD */ internal::OffsetList readPT(Binary::const_iterator iterator, std::size_t ptLen) const; /** @brief Read VPD information contained within a record * * @param[in] recordOffset - offset to a record location * within the binary OpenPOWER VPD */ void processRecord(std::size_t recordOffset); /** @brief Read keyword data * * @param[in] keyword - OpenPOWER VPD keyword * @param[in] dataLength - Length of data to be read * @param[in] iterator - iterator pointing to a Keyword's data in * the VPD * * @returns keyword data as a string */ std::string readKwData(const internal::KeywordInfo& keyword, std::size_t dataLength, Binary::const_iterator iterator); /** @brief While we're pointing at the keyword section of * a record in the VPD, this will read all contained * keywords and their values. * * @param[in] iterator - iterator pointing to a Keyword in the VPD * * @returns map of keyword:data */ internal::KeywordMap readKeywords(Binary::const_iterator iterator); /** @brief Checks if the VHDR record is present in the VPD */ void checkHeader() const; /** @brief OpenPOWER VPD in binary format */ Binary vpd; /** @brief parser output */ Parsed out; }; } // namespace parser } // namespace vpd } // namespace openpower