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/*------------------------------------------------------------------------- * * gist_private.h * private declarations for GiST -- declarations related to the * internal implementation of GiST, not the public API * * Portions Copyright (c) 1996-2012, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * src/include/access/gist_private.h * *------------------------------------------------------------------------- */ #ifndef GIST_PRIVATE_H #define GIST_PRIVATE_H #include "access/gist.h" #include "access/itup.h" #include "fmgr.h" #include "storage/bufmgr.h" #include "storage/buffile.h" #include "utils/rbtree.h" #include "utils/hsearch.h" /* * Maximum number of "halves" a page can be split into in one operation. * Typically a split produces 2 halves, but can be more if keys have very * different lengths, or when inserting multiple keys in one operation (as * when inserting downlinks to an internal node). There is no theoretical * limit on this, but in practice if you get more than a handful page halves * in one split, there's something wrong with the opclass implementation. * GIST_MAX_SPLIT_PAGES is an arbitrary limit on that, used to size some * local arrays used during split. Note that there is also a limit on the * number of buffers that can be held locked at a time, MAX_SIMUL_LWLOCKS, * so if you raise this higher than that limit, you'll just get a different * error. */ #define GIST_MAX_SPLIT_PAGES 75 /* Buffer lock modes */ #define GIST_SHARE BUFFER_LOCK_SHARE #define GIST_EXCLUSIVE BUFFER_LOCK_EXCLUSIVE #define GIST_UNLOCK BUFFER_LOCK_UNLOCK typedef struct { BlockNumber prev; uint32 freespace; char tupledata[1]; } GISTNodeBufferPage; #define BUFFER_PAGE_DATA_OFFSET MAXALIGN(offsetof(GISTNodeBufferPage, tupledata)) /* Returns free space in node buffer page */ #define PAGE_FREE_SPACE(nbp) (nbp->freespace) /* Checks if node buffer page is empty */ #define PAGE_IS_EMPTY(nbp) (nbp->freespace == BLCKSZ - BUFFER_PAGE_DATA_OFFSET) /* Checks if node buffers page don't contain sufficient space for index tuple */ #define PAGE_NO_SPACE(nbp, itup) (PAGE_FREE_SPACE(nbp) < \ MAXALIGN(IndexTupleSize(itup))) /* * GISTSTATE: information needed for any GiST index operation * * This struct retains call info for the index's opclass-specific support * functions (per index column), plus the index's tuple descriptor. * * scanCxt holds the GISTSTATE itself as well as any data that lives for the * lifetime of the index operation. We pass this to the support functions * via fn_mcxt, so that they can store scan-lifespan data in it. The * functions are invoked in tempCxt, which is typically short-lifespan * (that is, it's reset after each tuple). However, tempCxt can be the same * as scanCxt if we're not bothering with per-tuple context resets. */ typedef struct GISTSTATE { MemoryContext scanCxt; /* context for scan-lifespan data */ MemoryContext tempCxt; /* short-term context for calling functions */ TupleDesc tupdesc; /* index's tuple descriptor */ FmgrInfo consistentFn[INDEX_MAX_KEYS]; FmgrInfo unionFn[INDEX_MAX_KEYS]; FmgrInfo compressFn[INDEX_MAX_KEYS]; FmgrInfo decompressFn[INDEX_MAX_KEYS]; FmgrInfo penaltyFn[INDEX_MAX_KEYS]; FmgrInfo picksplitFn[INDEX_MAX_KEYS]; FmgrInfo equalFn[INDEX_MAX_KEYS]; FmgrInfo distanceFn[INDEX_MAX_KEYS]; /* Collations to pass to the support functions */ Oid supportCollation[INDEX_MAX_KEYS]; } GISTSTATE; /* * During a GiST index search, we must maintain a queue of unvisited items, * which can be either individual heap tuples or whole index pages. If it * is an ordered search, the unvisited items should be visited in distance * order. Unvisited items at the same distance should be visited in * depth-first order, that is heap items first, then lower index pages, then * upper index pages; this rule avoids doing extra work during a search that * ends early due to LIMIT. * * To perform an ordered search, we use an RBTree to manage the distance-order * queue. Each GISTSearchTreeItem stores all unvisited items of the same * distance; they are GISTSearchItems chained together via their next fields. * * In a non-ordered search (no order-by operators), the RBTree degenerates * to a single item, which we use as a queue of unvisited index pages only. * In this case matched heap items from the current index leaf page are * remembered in GISTScanOpaqueData.pageData[] and returned directly from * there, instead of building a separate GISTSearchItem for each one. */ /* Individual heap tuple to be visited */ typedef struct GISTSearchHeapItem { ItemPointerData heapPtr; bool recheck; /* T if quals must be rechecked */ } GISTSearchHeapItem; /* Unvisited item, either index page or heap tuple */ typedef struct GISTSearchItem { struct GISTSearchItem *next; /* list link */ BlockNumber blkno; /* index page number, or InvalidBlockNumber */ union { GistNSN parentlsn; /* parent page's LSN, if index page */ /* we must store parentlsn to detect whether a split occurred */ GISTSearchHeapItem heap; /* heap info, if heap tuple */ } data; } GISTSearchItem; #define GISTSearchItemIsHeap(item) ((item).blkno == InvalidBlockNumber) /* * Within a GISTSearchTreeItem's chain, heap items always appear before * index-page items, since we want to visit heap items first. lastHeap points * to the last heap item in the chain, or is NULL if there are none. */ typedef struct GISTSearchTreeItem { RBNode rbnode; /* this is an RBTree item */ GISTSearchItem *head; /* first chain member */ GISTSearchItem *lastHeap; /* last heap-tuple member, if any */ double distances[1]; /* array with numberOfOrderBys entries */ } GISTSearchTreeItem; #define GSTIHDRSZ offsetof(GISTSearchTreeItem, distances) /* * GISTScanOpaqueData: private state for a scan of a GiST index */ typedef struct GISTScanOpaqueData { GISTSTATE *giststate; /* index information, see above */ RBTree *queue; /* queue of unvisited items */ MemoryContext queueCxt; /* context holding the queue */ bool qual_ok; /* false if qual can never be satisfied */ bool firstCall; /* true until first gistgettuple call */ GISTSearchTreeItem *curTreeItem; /* current queue item, if any */ /* pre-allocated workspace arrays */ GISTSearchTreeItem *tmpTreeItem; /* workspace to pass to rb_insert */ double *distances; /* output area for gistindex_keytest */ /* In a non-ordered search, returnable heap items are stored here: */ GISTSearchHeapItem pageData[BLCKSZ / sizeof(IndexTupleData)]; OffsetNumber nPageData; /* number of valid items in array */ OffsetNumber curPageData; /* next item to return */ } GISTScanOpaqueData; typedef GISTScanOpaqueData *GISTScanOpaque; /* XLog stuff */ #define XLOG_GIST_PAGE_UPDATE 0x00 /* #define XLOG_GIST_NEW_ROOT 0x20 */ /* not used anymore */ #define XLOG_GIST_PAGE_SPLIT 0x30 /* #define XLOG_GIST_INSERT_COMPLETE 0x40 */ /* not used anymore */ #define XLOG_GIST_CREATE_INDEX 0x50 #define XLOG_GIST_PAGE_DELETE 0x60 typedef struct gistxlogPageUpdate { RelFileNode node; BlockNumber blkno; /* * If this operation completes a page split, by inserting a downlink for * the split page, leftchild points to the left half of the split. */ BlockNumber leftchild; /* number of deleted offsets */ uint16 ntodelete; /* * follow: 1. todelete OffsetNumbers 2. tuples to insert */ } gistxlogPageUpdate; typedef struct gistxlogPageSplit { RelFileNode node; BlockNumber origblkno; /* splitted page */ BlockNumber origrlink; /* rightlink of the page before split */ GistNSN orignsn; /* NSN of the page before split */ bool origleaf; /* was splitted page a leaf page? */ BlockNumber leftchild; /* like in gistxlogPageUpdate */ uint16 npage; /* # of pages in the split */ bool markfollowright; /* set F_FOLLOW_RIGHT flags */ /* * follow: 1. gistxlogPage and array of IndexTupleData per page */ } gistxlogPageSplit; typedef struct gistxlogPage { BlockNumber blkno; int num; /* number of index tuples following */ } gistxlogPage; typedef struct gistxlogPageDelete { RelFileNode node; BlockNumber blkno; } gistxlogPageDelete; /* SplitedPageLayout - gistSplit function result */ typedef struct SplitedPageLayout { gistxlogPage block; IndexTupleData *list; int lenlist; IndexTuple itup; /* union key for page */ Page page; /* to operate */ Buffer buffer; /* to write after all proceed */ struct SplitedPageLayout *next; } SplitedPageLayout; /* * GISTInsertStack used for locking buffers and transfer arguments during * insertion */ typedef struct GISTInsertStack { /* current page */ BlockNumber blkno; Buffer buffer; Page page; /* * log sequence number from page->lsn to recognize page update and compare * it with page's nsn to recognize page split */ GistNSN lsn; /* offset of the downlink in the parent page, that points to this page */ OffsetNumber downlinkoffnum; /* pointer to parent */ struct GISTInsertStack *parent; } GISTInsertStack; /* Working state and results for multi-column split logic in gistsplit.c */ typedef struct GistSplitVector { GIST_SPLITVEC splitVector; /* passed to/from user PickSplit method */ Datum spl_lattr[INDEX_MAX_KEYS]; /* Union of subkeys in * splitVector.spl_left */ bool spl_lisnull[INDEX_MAX_KEYS]; Datum spl_rattr[INDEX_MAX_KEYS]; /* Union of subkeys in * splitVector.spl_right */ bool spl_risnull[INDEX_MAX_KEYS]; bool *spl_dontcare; /* flags tuples which could go to either side * of the split for zero penalty */ } GistSplitVector; typedef struct { Relation r; Size freespace; /* free space to be left */ GISTInsertStack *stack; } GISTInsertState; /* root page of a gist index */ #define GIST_ROOT_BLKNO 0 /* * Before PostgreSQL 9.1, we used rely on so-called "invalid tuples" on inner * pages to finish crash recovery of incomplete page splits. If a crash * happened in the middle of a page split, so that the downlink pointers were * not yet inserted, crash recovery inserted a special downlink pointer. The * semantics of an invalid tuple was that it if you encounter one in a scan, * it must always be followed, because we don't know if the tuples on the * child page match or not. * * We no longer create such invalid tuples, we now mark the left-half of such * an incomplete split with the F_FOLLOW_RIGHT flag instead, and finish the * split properly the next time we need to insert on that page. To retain * on-disk compatibility for the sake of pg_upgrade, we still store 0xffff as * the offset number of all inner tuples. If we encounter any invalid tuples * with 0xfffe during insertion, we throw an error, though scans still handle * them. You should only encounter invalid tuples if you pg_upgrade a pre-9.1 * gist index which already has invalid tuples in it because of a crash. That * should be rare, and you are recommended to REINDEX anyway if you have any * invalid tuples in an index, so throwing an error is as far as we go with * supporting that. */ #define TUPLE_IS_VALID 0xffff #define TUPLE_IS_INVALID 0xfffe #define GistTupleIsInvalid(itup) ( ItemPointerGetOffsetNumber( &((itup)->t_tid) ) == TUPLE_IS_INVALID ) #define GistTupleSetValid(itup) ItemPointerSetOffsetNumber( &((itup)->t_tid), TUPLE_IS_VALID ) /* * A buffer attached to an internal node, used when building an index in * buffering mode. */ typedef struct { BlockNumber nodeBlocknum; /* index block # this buffer is for */ int32 blocksCount; /* current # of blocks occupied by buffer */ BlockNumber pageBlocknum; /* temporary file block # */ GISTNodeBufferPage *pageBuffer; /* in-memory buffer page */ /* is this buffer queued for emptying? */ bool queuedForEmptying; /* is this a temporary copy, not in the hash table? */ bool isTemp; int level; /* 0 == leaf */ } GISTNodeBuffer; /* * Does specified level have buffers? (Beware of multiple evaluation of * arguments.) */ #define LEVEL_HAS_BUFFERS(nlevel, gfbb) \ ((nlevel) != 0 && (nlevel) % (gfbb)->levelStep == 0 && \ (nlevel) != (gfbb)->rootlevel) /* Is specified buffer at least half-filled (should be queued for emptying)? */ #define BUFFER_HALF_FILLED(nodeBuffer, gfbb) \ ((nodeBuffer)->blocksCount > (gfbb)->pagesPerBuffer / 2) /* * Is specified buffer full? Our buffers can actually grow indefinitely, * beyond the "maximum" size, so this just means whether the buffer has grown * beyond the nominal maximum size. */ #define BUFFER_OVERFLOWED(nodeBuffer, gfbb) \ ((nodeBuffer)->blocksCount > (gfbb)->pagesPerBuffer) /* * Data structure with general information about build buffers. */ typedef struct GISTBuildBuffers { /* Persistent memory context for the buffers and metadata. */ MemoryContext context; BufFile *pfile; /* Temporary file to store buffers in */ long nFileBlocks; /* Current size of the temporary file */ /* * resizable array of free blocks. */ long *freeBlocks; int nFreeBlocks; /* # of currently free blocks in the array */ int freeBlocksLen; /* current allocated length of the array */ /* Hash for buffers by block number */ HTAB *nodeBuffersTab; /* List of buffers scheduled for emptying */ List *bufferEmptyingQueue; /* * Parameters to the buffering build algorithm. levelStep determines which * levels in the tree have buffers, and pagesPerBuffer determines how * large each buffer is. */ int levelStep; int pagesPerBuffer; /* Array of lists of buffers on each level, for final emptying */ List **buffersOnLevels; int buffersOnLevelsLen; /* * Dynamically-sized array of buffers that currently have their last page * loaded in main memory. */ GISTNodeBuffer **loadedBuffers; int loadedBuffersCount; /* # of entries in loadedBuffers */ int loadedBuffersLen; /* allocated size of loadedBuffers */ /* Level of the current root node (= height of the index tree - 1) */ int rootlevel; } GISTBuildBuffers; /* * Storage type for GiST's reloptions */ typedef struct GiSTOptions { int32 vl_len_; /* varlena header (do not touch directly!) */ int fillfactor; /* page fill factor in percent (0..100) */ int bufferingModeOffset; /* use buffering build? */ } GiSTOptions; /* gist.c */ extern Datum gistbuildempty(PG_FUNCTION_ARGS); extern Datum gistinsert(PG_FUNCTION_ARGS); extern MemoryContext createTempGistContext(void); extern GISTSTATE *initGISTstate(Relation index); extern void freeGISTstate(GISTSTATE *giststate); extern void gistdoinsert(Relation r, IndexTuple itup, Size freespace, GISTSTATE *GISTstate); /* A List of these is returned from gistplacetopage() in *splitinfo */ typedef struct { Buffer buf; /* the split page "half" */ IndexTuple downlink; /* downlink for this half. */ } GISTPageSplitInfo; extern bool gistplacetopage(Relation rel, Size freespace, GISTSTATE *giststate, Buffer buffer, IndexTuple *itup, int ntup, OffsetNumber oldoffnum, BlockNumber *newblkno, Buffer leftchildbuf, List **splitinfo, bool markleftchild); extern SplitedPageLayout *gistSplit(Relation r, Page page, IndexTuple *itup, int len, GISTSTATE *giststate); /* gistxlog.c */ extern void gist_redo(XLogRecPtr lsn, XLogRecord *record); extern void gist_desc(StringInfo buf, uint8 xl_info, char *rec); extern void gist_xlog_startup(void); extern void gist_xlog_cleanup(void); extern XLogRecPtr gistXLogUpdate(RelFileNode node, Buffer buffer, OffsetNumber *todelete, int ntodelete, IndexTuple *itup, int ntup, Buffer leftchild); extern XLogRecPtr gistXLogSplit(RelFileNode node, BlockNumber blkno, bool page_is_leaf, SplitedPageLayout *dist, BlockNumber origrlink, GistNSN oldnsn, Buffer leftchild, bool markfollowright); /* gistget.c */ extern Datum gistgettuple(PG_FUNCTION_ARGS); extern Datum gistgetbitmap(PG_FUNCTION_ARGS); /* gistutil.c */ #define GiSTPageSize \ ( BLCKSZ - SizeOfPageHeaderData - MAXALIGN(sizeof(GISTPageOpaqueData)) ) #define GIST_MIN_FILLFACTOR 10 #define GIST_DEFAULT_FILLFACTOR 90 extern Datum gistoptions(PG_FUNCTION_ARGS); extern bool gistfitpage(IndexTuple *itvec, int len); extern bool gistnospace(Page page, IndexTuple *itvec, int len, OffsetNumber todelete, Size freespace); extern void gistcheckpage(Relation rel, Buffer buf); extern Buffer gistNewBuffer(Relation r); extern void gistfillbuffer(Page page, IndexTuple *itup, int len, OffsetNumber off); extern IndexTuple *gistextractpage(Page page, int *len /* out */ ); extern IndexTuple *gistjoinvector( IndexTuple *itvec, int *len, IndexTuple *additvec, int addlen); extern IndexTupleData *gistfillitupvec(IndexTuple *vec, int veclen, int *memlen); extern IndexTuple gistunion(Relation r, IndexTuple *itvec, int len, GISTSTATE *giststate); extern IndexTuple gistgetadjusted(Relation r, IndexTuple oldtup, IndexTuple addtup, GISTSTATE *giststate); extern IndexTuple gistFormTuple(GISTSTATE *giststate, Relation r, Datum *attdata, bool *isnull, bool newValues); extern OffsetNumber gistchoose(Relation r, Page p, IndexTuple it, GISTSTATE *giststate); extern void gistcentryinit(GISTSTATE *giststate, int nkey, GISTENTRY *e, Datum k, Relation r, Page pg, OffsetNumber o, bool l, bool isNull); extern void GISTInitBuffer(Buffer b, uint32 f); extern void gistdentryinit(GISTSTATE *giststate, int nkey, GISTENTRY *e, Datum k, Relation r, Page pg, OffsetNumber o, bool l, bool isNull); extern float gistpenalty(GISTSTATE *giststate, int attno, GISTENTRY *key1, bool isNull1, GISTENTRY *key2, bool isNull2); extern void gistMakeUnionItVec(GISTSTATE *giststate, IndexTuple *itvec, int len, Datum *attr, bool *isnull); extern bool gistKeyIsEQ(GISTSTATE *giststate, int attno, Datum a, Datum b); extern void gistDeCompressAtt(GISTSTATE *giststate, Relation r, IndexTuple tuple, Page p, OffsetNumber o, GISTENTRY *attdata, bool *isnull); extern void gistMakeUnionKey(GISTSTATE *giststate, int attno, GISTENTRY *entry1, bool isnull1, GISTENTRY *entry2, bool isnull2, Datum *dst, bool *dstisnull); extern XLogRecPtr GetXLogRecPtrForTemp(void); /* gistvacuum.c */ extern Datum gistbulkdelete(PG_FUNCTION_ARGS); extern Datum gistvacuumcleanup(PG_FUNCTION_ARGS); /* gistsplit.c */ extern void gistSplitByKey(Relation r, Page page, IndexTuple *itup, int len, GISTSTATE *giststate, GistSplitVector *v, int attno); /* gistbuild.c */ extern Datum gistbuild(PG_FUNCTION_ARGS); extern void gistValidateBufferingOption(char *value); /* gistbuildbuffers.c */ extern GISTBuildBuffers *gistInitBuildBuffers(int pagesPerBuffer, int levelStep, int maxLevel); extern GISTNodeBuffer *gistGetNodeBuffer(GISTBuildBuffers *gfbb, GISTSTATE *giststate, BlockNumber blkno, int level); extern void gistPushItupToNodeBuffer(GISTBuildBuffers *gfbb, GISTNodeBuffer *nodeBuffer, IndexTuple item); extern bool gistPopItupFromNodeBuffer(GISTBuildBuffers *gfbb, GISTNodeBuffer *nodeBuffer, IndexTuple *item); extern void gistFreeBuildBuffers(GISTBuildBuffers *gfbb); extern void gistRelocateBuildBuffersOnSplit(GISTBuildBuffers *gfbb, GISTSTATE *giststate, Relation r, int level, Buffer buffer, List *splitinfo); extern void gistUnloadNodeBuffers(GISTBuildBuffers *gfbb); #endif /* GIST_PRIVATE_H */