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/*------------------------------------------------------------------------- * * bufpage.h * Standard POSTGRES buffer page definitions. * * * Portions Copyright (c) 1996-2016, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * src/include/storage/bufpage.h * *------------------------------------------------------------------------- */ #ifndef BUFPAGE_H #define BUFPAGE_H #include "access/xlogdefs.h" #include "storage/block.h" #include "storage/item.h" #include "storage/off.h" /* * A postgres disk page is an abstraction layered on top of a postgres * disk block (which is simply a unit of i/o, see block.h). * * specifically, while a disk block can be unformatted, a postgres * disk page is always a slotted page of the form: * * +----------------+---------------------------------+ * | PageHeaderData | linp1 linp2 linp3 ... | * +-----------+----+---------------------------------+ * | ... linpN | | * +-----------+--------------------------------------+ * | ^ pd_lower | * | | * | v pd_upper | * +-------------+------------------------------------+ * | | tupleN ... | * +-------------+------------------+-----------------+ * | ... tuple3 tuple2 tuple1 | "special space" | * +--------------------------------+-----------------+ * ^ pd_special * * a page is full when nothing can be added between pd_lower and * pd_upper. * * all blocks written out by an access method must be disk pages. * * EXCEPTIONS: * * obviously, a page is not formatted before it is initialized by * a call to PageInit. * * NOTES: * * linp1..N form an ItemId array. ItemPointers point into this array * rather than pointing directly to a tuple. Note that OffsetNumbers * conventionally start at 1, not 0. * * tuple1..N are added "backwards" on the page. because a tuple's * ItemPointer points to its ItemId entry rather than its actual * byte-offset position, tuples can be physically shuffled on a page * whenever the need arises. * * AM-generic per-page information is kept in PageHeaderData. * * AM-specific per-page data (if any) is kept in the area marked "special * space"; each AM has an "opaque" structure defined somewhere that is * stored as the page trailer. an access method should always * initialize its pages with PageInit and then set its own opaque * fields. */ typedef Pointer Page; /* * location (byte offset) within a page. * * note that this is actually limited to 2^15 because we have limited * ItemIdData.lp_off and ItemIdData.lp_len to 15 bits (see itemid.h). */ typedef uint16 LocationIndex; /* * For historical reasons, the 64-bit LSN value is stored as two 32-bit * values. */ typedef struct { uint32 xlogid; /* high bits */ uint32 xrecoff; /* low bits */ } PageXLogRecPtr; #define PageXLogRecPtrGet(val) \ ((uint64) (val).xlogid << 32 | (val).xrecoff) #define PageXLogRecPtrSet(ptr, lsn) \ ((ptr).xlogid = (uint32) ((lsn) >> 32), (ptr).xrecoff = (uint32) (lsn)) /* * disk page organization * * space management information generic to any page * * pd_lsn - identifies xlog record for last change to this page. * pd_checksum - page checksum, if set. * pd_flags - flag bits. * pd_lower - offset to start of free space. * pd_upper - offset to end of free space. * pd_special - offset to start of special space. * pd_pagesize_version - size in bytes and page layout version number. * pd_prune_xid - oldest XID among potentially prunable tuples on page. * * The LSN is used by the buffer manager to enforce the basic rule of WAL: * "thou shalt write xlog before data". A dirty buffer cannot be dumped * to disk until xlog has been flushed at least as far as the page's LSN. * * pd_checksum stores the page checksum, if it has been set for this page; * zero is a valid value for a checksum. If a checksum is not in use then * we leave the field unset. This will typically mean the field is zero * though non-zero values may also be present if databases have been * pg_upgraded from releases prior to 9.3, when the same byte offset was * used to store the current timelineid when the page was last updated. * Note that there is no indication on a page as to whether the checksum * is valid or not, a deliberate design choice which avoids the problem * of relying on the page contents to decide whether to verify it. Hence * there are no flag bits relating to checksums. * * pd_prune_xid is a hint field that helps determine whether pruning will be * useful. It is currently unused in index pages. * * The page version number and page size are packed together into a single * uint16 field. This is for historical reasons: before PostgreSQL 7.3, * there was no concept of a page version number, and doing it this way * lets us pretend that pre-7.3 databases have page version number zero. * We constrain page sizes to be multiples of 256, leaving the low eight * bits available for a version number. * * Minimum possible page size is perhaps 64B to fit page header, opaque space * and a minimal tuple; of course, in reality you want it much bigger, so * the constraint on pagesize mod 256 is not an important restriction. * On the high end, we can only support pages up to 32KB because lp_off/lp_len * are 15 bits. */ typedef struct PageHeaderData { /* XXX LSN is member of *any* block, not only page-organized ones */ PageXLogRecPtr pd_lsn; /* LSN: next byte after last byte of xlog * record for last change to this page */ uint16 pd_checksum; /* checksum */ uint16 pd_flags; /* flag bits, see below */ LocationIndex pd_lower; /* offset to start of free space */ LocationIndex pd_upper; /* offset to end of free space */ LocationIndex pd_special; /* offset to start of special space */ uint16 pd_pagesize_version; TransactionId pd_prune_xid; /* oldest prunable XID, or zero if none */ ItemIdData pd_linp[FLEXIBLE_ARRAY_MEMBER]; /* line pointer array */ } PageHeaderData; typedef PageHeaderData *PageHeader; /* * pd_flags contains the following flag bits. Undefined bits are initialized * to zero and may be used in the future. * * PD_HAS_FREE_LINES is set if there are any LP_UNUSED line pointers before * pd_lower. This should be considered a hint rather than the truth, since * changes to it are not WAL-logged. * * PD_PAGE_FULL is set if an UPDATE doesn't find enough free space in the * page for its new tuple version; this suggests that a prune is needed. * Again, this is just a hint. */ #define PD_HAS_FREE_LINES 0x0001 /* are there any unused line pointers? */ #define PD_PAGE_FULL 0x0002 /* not enough free space for new * tuple? */ #define PD_ALL_VISIBLE 0x0004 /* all tuples on page are visible to * everyone */ #define PD_VALID_FLAG_BITS 0x0007 /* OR of all valid pd_flags bits */ /* * Page layout version number 0 is for pre-7.3 Postgres releases. * Releases 7.3 and 7.4 use 1, denoting a new HeapTupleHeader layout. * Release 8.0 uses 2; it changed the HeapTupleHeader layout again. * Release 8.1 uses 3; it redefined HeapTupleHeader infomask bits. * Release 8.3 uses 4; it changed the HeapTupleHeader layout again, and * added the pd_flags field (by stealing some bits from pd_tli), * as well as adding the pd_prune_xid field (which enlarges the header). * * As of Release 9.3, the checksum version must also be considered when * handling pages. */ #define PG_PAGE_LAYOUT_VERSION 4 #define PG_DATA_CHECKSUM_VERSION 1 /* ---------------------------------------------------------------- * page support macros * ---------------------------------------------------------------- */ /* * PageIsValid * True iff page is valid. */ #define PageIsValid(page) PointerIsValid(page) /* * line pointer(s) do not count as part of header */ #define SizeOfPageHeaderData (offsetof(PageHeaderData, pd_linp)) /* * PageIsEmpty * returns true iff no itemid has been allocated on the page */ #define PageIsEmpty(page) \ (((PageHeader) (page))->pd_lower <= SizeOfPageHeaderData) /* * PageIsNew * returns true iff page has not been initialized (by PageInit) */ #define PageIsNew(page) (((PageHeader) (page))->pd_upper == 0) /* * PageGetItemId * Returns an item identifier of a page. */ #define PageGetItemId(page, offsetNumber) \ ((ItemId) (&((PageHeader) (page))->pd_linp[(offsetNumber) - 1])) /* * PageGetContents * To be used in case the page does not contain item pointers. * * Note: prior to 8.3 this was not guaranteed to yield a MAXALIGN'd result. * Now it is. Beware of old code that might think the offset to the contents * is just SizeOfPageHeaderData rather than MAXALIGN(SizeOfPageHeaderData). */ #define PageGetContents(page) \ ((char *) (page) + MAXALIGN(SizeOfPageHeaderData)) /* ---------------- * macros to access page size info * ---------------- */ /* * PageSizeIsValid * True iff the page size is valid. */ #define PageSizeIsValid(pageSize) ((pageSize) == BLCKSZ) /* * PageGetPageSize * Returns the page size of a page. * * this can only be called on a formatted page (unlike * BufferGetPageSize, which can be called on an unformatted page). * however, it can be called on a page that is not stored in a buffer. */ #define PageGetPageSize(page) \ ((Size) (((PageHeader) (page))->pd_pagesize_version & (uint16) 0xFF00)) /* * PageGetPageLayoutVersion * Returns the page layout version of a page. */ #define PageGetPageLayoutVersion(page) \ (((PageHeader) (page))->pd_pagesize_version & 0x00FF) /* * PageSetPageSizeAndVersion * Sets the page size and page layout version number of a page. * * We could support setting these two values separately, but there's * no real need for it at the moment. */ #define PageSetPageSizeAndVersion(page, size, version) \ ( \ AssertMacro(((size) & 0xFF00) == (size)), \ AssertMacro(((version) & 0x00FF) == (version)), \ ((PageHeader) (page))->pd_pagesize_version = (size) | (version) \ ) /* ---------------- * page special data macros * ---------------- */ /* * PageGetSpecialSize * Returns size of special space on a page. */ #define PageGetSpecialSize(page) \ ((uint16) (PageGetPageSize(page) - ((PageHeader)(page))->pd_special)) /* * Using assertions, validate that the page special pointer is OK. * * This is intended to catch use of the pointer before page initialization. * It is implemented as a function due to the limitations of the MSVC * compiler, which choked on doing all these tests within another macro. We * return true so that MacroAssert() can be used while still getting the * specifics from the macro failure within this function. */ static inline bool PageValidateSpecialPointer(Page page) { Assert(PageIsValid(page)); Assert(((PageHeader) (page))->pd_special <= BLCKSZ); Assert(((PageHeader) (page))->pd_special >= SizeOfPageHeaderData); return true; } /* * PageGetSpecialPointer * Returns pointer to special space on a page. */ #define PageGetSpecialPointer(page) \ ( \ AssertMacro(PageValidateSpecialPointer(page)), \ (char *) ((char *) (page) + ((PageHeader) (page))->pd_special) \ ) /* * PageGetItem * Retrieves an item on the given page. * * Note: * This does not change the status of any of the resources passed. * The semantics may change in the future. */ #define PageGetItem(page, itemId) \ ( \ AssertMacro(PageIsValid(page)), \ AssertMacro(ItemIdHasStorage(itemId)), \ (Item)(((char *)(page)) + ItemIdGetOffset(itemId)) \ ) /* * PageGetMaxOffsetNumber * Returns the maximum offset number used by the given page. * Since offset numbers are 1-based, this is also the number * of items on the page. * * NOTE: if the page is not initialized (pd_lower == 0), we must * return zero to ensure sane behavior. Accept double evaluation * of the argument so that we can ensure this. */ #define PageGetMaxOffsetNumber(page) \ (((PageHeader) (page))->pd_lower <= SizeOfPageHeaderData ? 0 : \ ((((PageHeader) (page))->pd_lower - SizeOfPageHeaderData) \ / sizeof(ItemIdData))) /* * Additional macros for access to page headers. (Beware multiple evaluation * of the arguments!) */ #define PageGetLSN(page) \ PageXLogRecPtrGet(((PageHeader) (page))->pd_lsn) #define PageSetLSN(page, lsn) \ PageXLogRecPtrSet(((PageHeader) (page))->pd_lsn, lsn) #define PageHasFreeLinePointers(page) \ (((PageHeader) (page))->pd_flags & PD_HAS_FREE_LINES) #define PageSetHasFreeLinePointers(page) \ (((PageHeader) (page))->pd_flags |= PD_HAS_FREE_LINES) #define PageClearHasFreeLinePointers(page) \ (((PageHeader) (page))->pd_flags &= ~PD_HAS_FREE_LINES) #define PageIsFull(page) \ (((PageHeader) (page))->pd_flags & PD_PAGE_FULL) #define PageSetFull(page) \ (((PageHeader) (page))->pd_flags |= PD_PAGE_FULL) #define PageClearFull(page) \ (((PageHeader) (page))->pd_flags &= ~PD_PAGE_FULL) #define PageIsAllVisible(page) \ (((PageHeader) (page))->pd_flags & PD_ALL_VISIBLE) #define PageSetAllVisible(page) \ (((PageHeader) (page))->pd_flags |= PD_ALL_VISIBLE) #define PageClearAllVisible(page) \ (((PageHeader) (page))->pd_flags &= ~PD_ALL_VISIBLE) #define PageIsPrunable(page, oldestxmin) \ ( \ AssertMacro(TransactionIdIsNormal(oldestxmin)), \ TransactionIdIsValid(((PageHeader) (page))->pd_prune_xid) && \ TransactionIdPrecedes(((PageHeader) (page))->pd_prune_xid, oldestxmin) \ ) #define PageSetPrunable(page, xid) \ do { \ Assert(TransactionIdIsNormal(xid)); \ if (!TransactionIdIsValid(((PageHeader) (page))->pd_prune_xid) || \ TransactionIdPrecedes(xid, ((PageHeader) (page))->pd_prune_xid)) \ ((PageHeader) (page))->pd_prune_xid = (xid); \ } while (0) #define PageClearPrunable(page) \ (((PageHeader) (page))->pd_prune_xid = InvalidTransactionId) /* ---------------------------------------------------------------- * extern declarations * ---------------------------------------------------------------- */ #define PAI_OVERWRITE (1 << 0) #define PAI_IS_HEAP (1 << 1) #define PAI_ALLOW_FAR_OFFSET (1 << 2) extern void PageInit(Page page, Size pageSize, Size specialSize); extern bool PageIsVerified(Page page, BlockNumber blkno); extern OffsetNumber PageAddItem(Page page, Item item, Size size, OffsetNumber offsetNumber, bool overwrite, bool is_heap); extern OffsetNumber PageAddItemExtended(Page page, Item item, Size size, OffsetNumber offsetNumber, int flags); extern Page PageGetTempPage(Page page); extern Page PageGetTempPageCopy(Page page); extern Page PageGetTempPageCopySpecial(Page page); extern void PageRestoreTempPage(Page tempPage, Page oldPage); extern void PageRepairFragmentation(Page page); extern Size PageGetFreeSpace(Page page); extern Size PageGetExactFreeSpace(Page page); extern Size PageGetHeapFreeSpace(Page page); extern void PageIndexTupleDelete(Page page, OffsetNumber offset); extern void PageIndexMultiDelete(Page page, OffsetNumber *itemnos, int nitems); extern void PageIndexDeleteNoCompact(Page page, OffsetNumber *itemnos, int nitems); extern char *PageSetChecksumCopy(Page page, BlockNumber blkno); extern void PageSetChecksumInplace(Page page, BlockNumber blkno); #endif /* BUFPAGE_H */