pnor_partition_table.hpp - openbmc/hiomapd - Gitiles

 #pragma once

 #include <vector>
 #include <memory>
 #include <numeric>
 #include <experimental/filesystem>
 #include "pnor_partition_defs.h"

 namespace openpower
 {
 namespace virtual_pnor
 {

 namespace fs = std::experimental::filesystem;

 using PartitionTable = std::vector<uint8_t>;
 using checksum_t = uint32_t;

 /** @brief Convert the input partition table to big endian.
  *
  *  @param[in] src - reference to the pnor partition table
  *
  *  @returns converted partition table
  */
 PartitionTable endianFixup(const PartitionTable& src);

 /** @brief Parse a ToC line (entry) into the corresponding FFS partition
  * object.
  *
  * @param[in] line - The ToC line to parse
  * @param[in] blockSize - The flash block size in bytes
  * @param[out] part - The partition object to populate with the information
  *                    parsed from the provided ToC line
  *
  * @returns True on success, false on failure.
  */
 bool parseTocLine(const std::string& line, size_t blockSize,
                   pnor_partition& part);

 namespace details
 {

 /** @brief Compute XOR-based checksum, by XORing consecutive words
  *         in the input data. Input must be aligned to word boundary.
  *
  *  @param[in] data - input data on which checksum is computed
  *
  *  @returns computed checksum
  */
 template <class T> checksum_t checksum(const T& data)
 {
     static_assert(sizeof(decltype(data)) % sizeof(checksum_t) == 0,
                   "sizeof(data) is not aligned to sizeof(checksum_t) boundary");

     auto begin = reinterpret_cast<const checksum_t*>(&data);
     auto end = begin + (sizeof(decltype(data)) / sizeof(checksum_t));

     return std::accumulate(begin, end, 0, std::bit_xor<checksum_t>());
 }

 } // namespace details

 namespace partition
 {

 /** @class Table
  *  @brief Generates virtual PNOR partition table.
  *
  *  Generates virtual PNOR partition table upon construction. Reads
  *  the PNOR information generated by this tool :
  *  github.com/openbmc/openpower-pnor-code-mgmt/blob/master/generate-squashfs,
  *  which generates a minimalistic table-of-contents (toc) file and
  *  individual files to represent various partitions that are of interest -
  *  these help form the "virtual" PNOR, which is typically a subset of the full
  *  PNOR image.
  *  These files are stored in a well-known location on the PNOR.
  *  Based on this information, this class prepares the partition table whose
  *  structure is as outlined in pnor_partition.h.
  *
  *  The virtual PNOR supports 4KB erase blocks - partitions must be aligned to
  *  this size.
  */
 class Table
 {
   public:
     /** @brief Constructor accepting the path of the directory
      *         that houses the PNOR partition files.
      *
      *  @param[in] directory - path of the directory housing PNOR partitions
      *  @param[in] blockSize - PNOR block size, in bytes. See
      *             open-power/hostboot/blob/master/src/usr/pnor/ffs.h for
      *             the PNOR FFS structure.
      *  @param[in] pnorSize - PNOR size, in bytes
      */
     Table(fs::path&& directory, size_t blockSize, size_t pnorSize);

     /** @brief Constructor - creates partition table
      *
      *  @param[in] blockSize - PNOR block size, in bytes
      *  @param[in] pnorSize - PNOR size, in bytes
      */
     Table(size_t blockSize, size_t pnorSize);

     Table(const Table&) = delete;
     Table& operator=(const Table&) = delete;
     Table(Table&&) = delete;
     Table& operator=(Table&&) = delete;
     ~Table() = default;

     /** @brief Return size of partition table
      *
      *  @returns size_t - size of partition table in blocks
      */
     size_t size() const
     {
         return szBlocks;
     }

     /** @brief Return a partition table having byte-ordering
      *         that the host expects.
      *
      *  The host needs the partion table in big-endian.
      *
      *  @returns const reference to host partition table.
      */
     const pnor_partition_table& getHostTable() const
     {
         return *(reinterpret_cast<const pnor_partition_table*>(hostTbl.data()));
     }

     /** @brief Return a little-endian partition table
      *
      *  @returns const reference to native partition table
      */
     const pnor_partition_table& getNativeTable() const
     {
         return *(reinterpret_cast<const pnor_partition_table*>(tbl.data()));
     }

     /** @brief Return partition corresponding to PNOR offset, the offset
      *         is within returned partition.
      *
      *  @param[in] offset - PNOR offset in bytes
      *
      *  @returns const reference to pnor_partition, if found, else an
      *           exception will be thrown.
      */
     const pnor_partition& partition(size_t offset) const;

     /** @brief Return partition corresponding to input partition name.
      *
      *  @param[in] name - PNOR partition name
      *
      *  @returns const reference to pnor_partition, if found, else an
      *           exception will be thrown.
      */
     const pnor_partition& partition(const std::string& name) const;

   private:
     /** @brief Prepares a vector of PNOR partition structures.
      */
     void preparePartitions();

     /** @brief Prepares the PNOR header.
      */
     void prepareHeader();

     /** @brief Allocate memory to hold the partion table. Determine the
      *         amount needed based on the partition files in the toc file.
      *
      *  @param[in] tocFile - Table of contents file path.
      */
     void allocateMemory(const fs::path& tocFile);

     /** @brief Return a little-endian partition table
      *
      *  @returns reference to native partition table
      */
     pnor_partition_table& getNativeTable()
     {
         return *(reinterpret_cast<pnor_partition_table*>(tbl.data()));
     }

     /** @brief Size of the PNOR partition table -
      *         sizeof(pnor_partition_table) +
      *         (no. of partitions * sizeof(pnor_partition)),
      *         measured in erase-blocks.
      */
     size_t szBlocks;

     /** @brief Partition table */
     PartitionTable tbl;

     /** @brief Partition table with host byte ordering */
     PartitionTable hostTbl;

     /** @brief Directory housing generated PNOR partition files */
     fs::path directory;

     /** @brief Number of partitions */
     size_t numParts;

     /** @brief PNOR block size, in bytes */
     size_t blockSize;

     /** @brief PNOR size, in bytes */
     size_t pnorSize;
 };

 } // namespace partition
 } // namespace virtual_pnor
 } // namespace openpower
	#pragma once

	#include <vector>
	#include <memory>
	#include <numeric>
	#include <experimental/filesystem>
	#include "pnor_partition_defs.h"

	namespace openpower
	{
	namespace virtual_pnor
	{

	namespace fs = std::experimental::filesystem;

	using PartitionTable = std::vector<uint8_t>;
	using checksum_t = uint32_t;

	/** @brief Convert the input partition table to big endian.
	*
	* @param[in] src - reference to the pnor partition table
	*
	* @returns converted partition table
	*/
	PartitionTable endianFixup(const PartitionTable& src);

	/** @brief Parse a ToC line (entry) into the corresponding FFS partition
	* object.
	*
	* @param[in] line - The ToC line to parse
	* @param[in] blockSize - The flash block size in bytes
	* @param[out] part - The partition object to populate with the information
	* parsed from the provided ToC line
	*
	* @returns True on success, false on failure.
	*/
	bool parseTocLine(const std::string& line, size_t blockSize,
	pnor_partition& part);

	namespace details
	{

	/** @brief Compute XOR-based checksum, by XORing consecutive words
	* in the input data. Input must be aligned to word boundary.
	*
	* @param[in] data - input data on which checksum is computed
	*
	* @returns computed checksum
	*/
	template <class T> checksum_t checksum(const T& data)
	{
	static_assert(sizeof(decltype(data)) % sizeof(checksum_t) == 0,
	"sizeof(data) is not aligned to sizeof(checksum_t) boundary");

	auto begin = reinterpret_cast<const checksum_t*>(&data);
	auto end = begin + (sizeof(decltype(data)) / sizeof(checksum_t));

	return std::accumulate(begin, end, 0, std::bit_xor<checksum_t>());
	}

	} // namespace details

	namespace partition
	{

	/** @class Table
	* @brief Generates virtual PNOR partition table.
	*
	* Generates virtual PNOR partition table upon construction. Reads
	* the PNOR information generated by this tool :
	* github.com/openbmc/openpower-pnor-code-mgmt/blob/master/generate-squashfs,
	* which generates a minimalistic table-of-contents (toc) file and
	* individual files to represent various partitions that are of interest -
	* these help form the "virtual" PNOR, which is typically a subset of the full
	* PNOR image.
	* These files are stored in a well-known location on the PNOR.
	* Based on this information, this class prepares the partition table whose
	* structure is as outlined in pnor_partition.h.
	*
	* The virtual PNOR supports 4KB erase blocks - partitions must be aligned to
	* this size.
	*/
	class Table
	{
	public:
	/** @brief Constructor accepting the path of the directory
	* that houses the PNOR partition files.
	*
	* @param[in] directory - path of the directory housing PNOR partitions
	* @param[in] blockSize - PNOR block size, in bytes. See
	* open-power/hostboot/blob/master/src/usr/pnor/ffs.h for
	* the PNOR FFS structure.
	* @param[in] pnorSize - PNOR size, in bytes
	*/
	Table(fs::path&& directory, size_t blockSize, size_t pnorSize);

	/** @brief Constructor - creates partition table
	*
	* @param[in] blockSize - PNOR block size, in bytes
	* @param[in] pnorSize - PNOR size, in bytes
	*/
	Table(size_t blockSize, size_t pnorSize);

	Table(const Table&) = delete;
	Table& operator=(const Table&) = delete;
	Table(Table&&) = delete;
	Table& operator=(Table&&) = delete;
	~Table() = default;

	/** @brief Return size of partition table
	*
	* @returns size_t - size of partition table in blocks
	*/
	size_t size() const
	{
	return szBlocks;
	}

	/** @brief Return a partition table having byte-ordering
	* that the host expects.
	*
	* The host needs the partion table in big-endian.
	*
	* @returns const reference to host partition table.
	*/
	const pnor_partition_table& getHostTable() const
	{
	return (reinterpret_cast<const pnor_partition_table>(hostTbl.data()));
	}

	/** @brief Return a little-endian partition table
	*
	* @returns const reference to native partition table
	*/
	const pnor_partition_table& getNativeTable() const
	{
	return (reinterpret_cast<const pnor_partition_table>(tbl.data()));
	}

	/** @brief Return partition corresponding to PNOR offset, the offset
	* is within returned partition.
	*
	* @param[in] offset - PNOR offset in bytes
	*
	* @returns const reference to pnor_partition, if found, else an
	* exception will be thrown.
	*/
	const pnor_partition& partition(size_t offset) const;

	/** @brief Return partition corresponding to input partition name.
	*
	* @param[in] name - PNOR partition name
	*
	* @returns const reference to pnor_partition, if found, else an
	* exception will be thrown.
	*/
	const pnor_partition& partition(const std::string& name) const;

	private:
	/** @brief Prepares a vector of PNOR partition structures.
	*/
	void preparePartitions();

	/** @brief Prepares the PNOR header.
	*/
	void prepareHeader();

	/** @brief Allocate memory to hold the partion table. Determine the
	* amount needed based on the partition files in the toc file.
	*
	* @param[in] tocFile - Table of contents file path.
	*/
	void allocateMemory(const fs::path& tocFile);

	/** @brief Return a little-endian partition table
	*
	* @returns reference to native partition table
	*/
	pnor_partition_table& getNativeTable()
	{
	return (reinterpret_cast<pnor_partition_table>(tbl.data()));
	}

	/** @brief Size of the PNOR partition table -
	* sizeof(pnor_partition_table) +
	* (no. of partitions * sizeof(pnor_partition)),
	* measured in erase-blocks.
	*/
	size_t szBlocks;

	/** @brief Partition table */
	PartitionTable tbl;

	/** @brief Partition table with host byte ordering */
	PartitionTable hostTbl;

	/** @brief Directory housing generated PNOR partition files */
	fs::path directory;

	/** @brief Number of partitions */
	size_t numParts;

	/** @brief PNOR block size, in bytes */
	size_t blockSize;

	/** @brief PNOR size, in bytes */
	size_t pnorSize;
	};

	} // namespace partition
	} // namespace virtual_pnor
	} // namespace openpower