/***************************************************************************** Copyright (c) 2013, 2015, Oracle and/or its affiliates. All Rights Reserved. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Suite 500, Boston, MA 02110-1335 USA *****************************************************************************/ /**************************************************//** @file include/page0size.h A class describing a page size. Created Nov 14, 2013 Vasil Dimov *******************************************************/ #ifndef page0size_t #define page0size_t #include "univ.i" #include "fsp0types.h" #define FIELD_REF_SIZE 20 /** A BLOB field reference full of zero, for use in assertions and tests.Initially, BLOB field references are set to zero, in dtuple_convert_big_rec(). */ extern const byte field_ref_zero[FIELD_REF_SIZE]; #define PAGE_SIZE_T_SIZE_BITS 17 /** Page size descriptor. Contains the physical and logical page size, as well as whether the page is compressed or not. */ class page_size_t { public: /** Constructor from (physical, logical, is_compressed). @param[in] physical physical (on-disk/zipped) page size @param[in] logical logical (in-memory/unzipped) page size @param[in] is_compressed whether the page is compressed */ page_size_t(ulint physical, ulint logical, bool is_compressed) { if (physical == 0) { physical = UNIV_PAGE_SIZE_ORIG; } if (logical == 0) { logical = UNIV_PAGE_SIZE_ORIG; } m_physical = static_cast(physical); m_logical = static_cast(logical); m_is_compressed = static_cast(is_compressed); ut_ad(physical <= (1 << PAGE_SIZE_T_SIZE_BITS)); ut_ad(logical <= (1 << PAGE_SIZE_T_SIZE_BITS)); ut_ad(ut_is_2pow(physical)); ut_ad(ut_is_2pow(logical)); ut_ad(logical <= UNIV_PAGE_SIZE_MAX); ut_ad(logical >= physical); ut_ad(!is_compressed || physical <= UNIV_ZIP_SIZE_MAX); } /** Constructor from (fsp_flags). @param[in] fsp_flags filespace flags */ explicit page_size_t(ulint fsp_flags) { ulint ssize = FSP_FLAGS_GET_PAGE_SSIZE(fsp_flags); /* If the logical page size is zero in fsp_flags, then use the legacy 16k page size. */ ssize = (0 == ssize) ? UNIV_PAGE_SSIZE_ORIG : ssize; /* Convert from a 'log2 minus 9' to a page size in bytes. */ const ulint size = ((UNIV_ZIP_SIZE_MIN >> 1) << ssize); ut_ad(size <= UNIV_PAGE_SIZE_MAX); ut_ad(size <= (1 << PAGE_SIZE_T_SIZE_BITS)); m_logical = size; ssize = FSP_FLAGS_GET_ZIP_SSIZE(fsp_flags); /* If the fsp_flags have zero in the zip_ssize field, then it means that the tablespace does not have compressed pages and the physical page size is the same as the logical page size. */ if (ssize == 0) { m_is_compressed = false; m_physical = m_logical; } else { m_is_compressed = true; /* Convert from a 'log2 minus 9' to a page size in bytes. */ const ulint phy = ((UNIV_ZIP_SIZE_MIN >> 1) << ssize); ut_ad(phy <= UNIV_ZIP_SIZE_MAX); ut_ad(phy <= (1 << PAGE_SIZE_T_SIZE_BITS)); m_physical = phy; } } /** Retrieve the physical page size (on-disk). @return physical page size in bytes */ inline ulint physical() const { ut_ad(m_physical > 0); return(m_physical); } /** Retrieve the logical page size (in-memory). @return logical page size in bytes */ inline ulint logical() const { ut_ad(m_logical > 0); return(m_logical); } /** Check whether the page is compressed on disk. @return true if compressed */ inline bool is_compressed() const { return(m_is_compressed); } /** Copy the values from a given page_size_t object. @param[in] src page size object whose values to fetch */ inline void copy_from(const page_size_t& src) { m_physical = src.physical(); m_logical = src.logical(); m_is_compressed = src.is_compressed(); } /** Check if a given page_size_t object is equal to the current one. @param[in] a page_size_t object to compare @return true if equal */ inline bool equals_to(const page_size_t& a) const { return(a.physical() == m_physical && a.logical() == m_logical && a.is_compressed() == m_is_compressed); } private: /* Disable implicit copying. */ void operator=(const page_size_t&); /* For non compressed tablespaces, physical page size is equal to the logical page size and the data is stored in buf_page_t::frame (and is also always equal to univ_page_size (--innodb-page-size=)). For compressed tablespaces, physical page size is the compressed page size as stored on disk and in buf_page_t::zip::data. The logical page size is the uncompressed page size in memory - the size of buf_page_t::frame (currently also always equal to univ_page_size (--innodb-page-size=)). */ /** Physical page size. */ unsigned m_physical:PAGE_SIZE_T_SIZE_BITS; /** Logical page size. */ unsigned m_logical:PAGE_SIZE_T_SIZE_BITS; /** Flag designating whether the physical page is compressed, which is true IFF the whole tablespace where the page belongs is compressed. */ unsigned m_is_compressed:1; }; /* Overloading the global output operator to conveniently print an object of type the page_size_t. @param[in,out] out the output stream @param[in] obj an object of type page_size_t to be printed @retval the output stream */ inline std::ostream& operator<<( std::ostream& out, const page_size_t& obj) { out << "[page size: physical=" << obj.physical() << ", logical=" << obj.logical() << ", compressed=" << obj.is_compressed() << "]"; return(out); } extern page_size_t univ_page_size; #endif /* page0size_t */