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/*------------------------------------------------------------------------- * * spgist_private.h * Private declarations for SP-GiST access method. * * * Portions Copyright (c) 1996-2012, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * src/include/access/spgist_private.h * *------------------------------------------------------------------------- */ #ifndef SPGIST_PRIVATE_H #define SPGIST_PRIVATE_H #include "access/itup.h" #include "access/spgist.h" #include "nodes/tidbitmap.h" #include "utils/rel.h" /* Page numbers of fixed-location pages */ #define SPGIST_METAPAGE_BLKNO (0) /* metapage */ #define SPGIST_ROOT_BLKNO (1) /* root for normal entries */ #define SPGIST_NULL_BLKNO (2) /* root for null-value entries */ #define SPGIST_LAST_FIXED_BLKNO SPGIST_NULL_BLKNO #define SpGistBlockIsRoot(blkno) \ ((blkno) == SPGIST_ROOT_BLKNO || (blkno) == SPGIST_NULL_BLKNO) #define SpGistBlockIsFixed(blkno) \ ((BlockNumber) (blkno) <= (BlockNumber) SPGIST_LAST_FIXED_BLKNO) /* * Contents of page special space on SPGiST index pages */ typedef struct SpGistPageOpaqueData { uint16 flags; /* see bit definitions below */ uint16 nRedirection; /* number of redirection tuples on page */ uint16 nPlaceholder; /* number of placeholder tuples on page */ /* note there's no count of either LIVE or DEAD tuples ... */ uint16 spgist_page_id; /* for identification of SP-GiST indexes */ } SpGistPageOpaqueData; typedef SpGistPageOpaqueData *SpGistPageOpaque; /* Flag bits in page special space */ #define SPGIST_META (1<<0) #define SPGIST_DELETED (1<<1) /* never set, but keep for backwards * compatibility */ #define SPGIST_LEAF (1<<2) #define SPGIST_NULLS (1<<3) #define SpGistPageGetOpaque(page) ((SpGistPageOpaque) PageGetSpecialPointer(page)) #define SpGistPageIsMeta(page) (SpGistPageGetOpaque(page)->flags & SPGIST_META) #define SpGistPageIsDeleted(page) (SpGistPageGetOpaque(page)->flags & SPGIST_DELETED) #define SpGistPageIsLeaf(page) (SpGistPageGetOpaque(page)->flags & SPGIST_LEAF) #define SpGistPageStoresNulls(page) (SpGistPageGetOpaque(page)->flags & SPGIST_NULLS) /* * The page ID is for the convenience of pg_filedump and similar utilities, * which otherwise would have a hard time telling pages of different index * types apart. It should be the last 2 bytes on the page. This is more or * less "free" due to alignment considerations. */ #define SPGIST_PAGE_ID 0xFF82 /* * Each backend keeps a cache of last-used page info in its index->rd_amcache * area. This is initialized from, and occasionally written back to, * shared storage in the index metapage. */ typedef struct SpGistLastUsedPage { BlockNumber blkno; /* block number, or InvalidBlockNumber */ int freeSpace; /* page's free space (could be obsolete!) */ } SpGistLastUsedPage; /* Note: indexes in cachedPage[] match flag assignments for SpGistGetBuffer */ #define SPGIST_CACHED_PAGES 8 typedef struct SpGistLUPCache { SpGistLastUsedPage cachedPage[SPGIST_CACHED_PAGES]; } SpGistLUPCache; /* * metapage */ typedef struct SpGistMetaPageData { uint32 magicNumber; /* for identity cross-check */ SpGistLUPCache lastUsedPages; /* shared storage of last-used info */ } SpGistMetaPageData; #define SPGIST_MAGIC_NUMBER (0xBA0BABEE) #define SpGistPageGetMeta(p) \ ((SpGistMetaPageData *) PageGetContents(p)) /* * Private state of index AM. SpGistState is common to both insert and * search code; SpGistScanOpaque is for searches only. */ /* Per-datatype info needed in SpGistState */ typedef struct SpGistTypeDesc { Oid type; bool attbyval; int16 attlen; } SpGistTypeDesc; typedef struct SpGistState { spgConfigOut config; /* filled in by opclass config method */ SpGistTypeDesc attType; /* type of input data and leaf values */ SpGistTypeDesc attPrefixType; /* type of inner-tuple prefix values */ SpGistTypeDesc attLabelType; /* type of node label values */ char *deadTupleStorage; /* workspace for spgFormDeadTuple */ TransactionId myXid; /* XID to use when creating a redirect tuple */ bool isBuild; /* true if doing index build */ } SpGistState; /* * Private state of an index scan */ typedef struct SpGistScanOpaqueData { SpGistState state; /* see above */ MemoryContext tempCxt; /* short-lived memory context */ /* Control flags showing whether to search nulls and/or non-nulls */ bool searchNulls; /* scan matches (all) null entries */ bool searchNonNulls; /* scan matches (some) non-null entries */ /* Index quals to be passed to opclass (null-related quals removed) */ int numberOfKeys; /* number of index qualifier conditions */ ScanKey keyData; /* array of index qualifier descriptors */ /* Stack of yet-to-be-visited pages */ List *scanStack; /* List of ScanStackEntrys */ /* These fields are only used in amgetbitmap scans: */ TIDBitmap *tbm; /* bitmap being filled */ int64 ntids; /* number of TIDs passed to bitmap */ /* These fields are only used in amgettuple scans: */ bool want_itup; /* are we reconstructing tuples? */ TupleDesc indexTupDesc; /* if so, tuple descriptor for them */ int nPtrs; /* number of TIDs found on current page */ int iPtr; /* index for scanning through same */ ItemPointerData heapPtrs[MaxIndexTuplesPerPage]; /* TIDs from cur page */ bool recheck[MaxIndexTuplesPerPage]; /* their recheck flags */ IndexTuple indexTups[MaxIndexTuplesPerPage]; /* reconstructed tuples */ /* * Note: using MaxIndexTuplesPerPage above is a bit hokey since * SpGistLeafTuples aren't exactly IndexTuples; however, they are larger, * so this is safe. */ } SpGistScanOpaqueData; typedef SpGistScanOpaqueData *SpGistScanOpaque; /* * This struct is what we actually keep in index->rd_amcache. It includes * static configuration information as well as the lastUsedPages cache. */ typedef struct SpGistCache { spgConfigOut config; /* filled in by opclass config method */ SpGistTypeDesc attType; /* type of input data and leaf values */ SpGistTypeDesc attPrefixType; /* type of inner-tuple prefix values */ SpGistTypeDesc attLabelType; /* type of node label values */ SpGistLUPCache lastUsedPages; /* local storage of last-used info */ } SpGistCache; /* * SPGiST tuple types. Note: inner, leaf, and dead tuple structs * must have the same tupstate field in the same position! Real inner and * leaf tuples always have tupstate = LIVE; if the state is something else, * use the SpGistDeadTuple struct to inspect the tuple. */ /* values of tupstate (see README for more info) */ #define SPGIST_LIVE 0 /* normal live tuple (either inner or leaf) */ #define SPGIST_REDIRECT 1 /* temporary redirection placeholder */ #define SPGIST_DEAD 2 /* dead, cannot be removed because of links */ #define SPGIST_PLACEHOLDER 3 /* placeholder, used to preserve offsets */ /* * SPGiST inner tuple: list of "nodes" that subdivide a set of tuples * * Inner tuple layout: * header/optional prefix/array of nodes, which are SpGistNodeTuples * * size and prefixSize must be multiples of MAXALIGN */ typedef struct SpGistInnerTupleData { unsigned int tupstate:2, /* LIVE/REDIRECT/DEAD/PLACEHOLDER */ allTheSame:1, /* all nodes in tuple are equivalent */ nNodes:13, /* number of nodes within inner tuple */ prefixSize:16; /* size of prefix, or 0 if none */ uint16 size; /* total size of inner tuple */ /* On most machines there will be a couple of wasted bytes here */ /* prefix datum follows, then nodes */ } SpGistInnerTupleData; typedef SpGistInnerTupleData *SpGistInnerTuple; /* these must match largest values that fit in bit fields declared above */ #define SGITMAXNNODES 0x1FFF #define SGITMAXPREFIXSIZE 0xFFFF #define SGITMAXSIZE 0xFFFF #define SGITHDRSZ MAXALIGN(sizeof(SpGistInnerTupleData)) #define _SGITDATA(x) (((char *) (x)) + SGITHDRSZ) #define SGITDATAPTR(x) ((x)->prefixSize ? _SGITDATA(x) : NULL) #define SGITDATUM(x, s) ((x)->prefixSize ? \ ((s)->attPrefixType.attbyval ? \ *(Datum *) _SGITDATA(x) : \ PointerGetDatum(_SGITDATA(x))) \ : (Datum) 0) #define SGITNODEPTR(x) ((SpGistNodeTuple) (_SGITDATA(x) + (x)->prefixSize)) /* Macro for iterating through the nodes of an inner tuple */ #define SGITITERATE(x, i, nt) \ for ((i) = 0, (nt) = SGITNODEPTR(x); \ (i) < (x)->nNodes; \ (i)++, (nt) = (SpGistNodeTuple) (((char *) (nt)) + IndexTupleSize(nt))) /* * SPGiST node tuple: one node within an inner tuple * * Node tuples use the same header as ordinary Postgres IndexTuples, but * we do not use a null bitmap, because we know there is only one column * so the INDEX_NULL_MASK bit suffices. Also, pass-by-value datums are * stored as a full Datum, the same convention as for inner tuple prefixes * and leaf tuple datums. */ typedef IndexTupleData SpGistNodeTupleData; typedef SpGistNodeTupleData *SpGistNodeTuple; #define SGNTHDRSZ MAXALIGN(sizeof(SpGistNodeTupleData)) #define SGNTDATAPTR(x) (((char *) (x)) + SGNTHDRSZ) #define SGNTDATUM(x, s) ((s)->attLabelType.attbyval ? \ *(Datum *) SGNTDATAPTR(x) : \ PointerGetDatum(SGNTDATAPTR(x))) /* * SPGiST leaf tuple: carries a datum and a heap tuple TID * * In the simplest case, the datum is the same as the indexed value; but * it could also be a suffix or some other sort of delta that permits * reconstruction given knowledge of the prefix path traversed to get here. * * The size field is wider than could possibly be needed for an on-disk leaf * tuple, but this allows us to form leaf tuples even when the datum is too * wide to be stored immediately, and it costs nothing because of alignment * considerations. * * Normally, nextOffset links to the next tuple belonging to the same parent * node (which must be on the same page). But when the root page is a leaf * page, we don't chain its tuples, so nextOffset is always 0 on the root. * * size must be a multiple of MAXALIGN; also, it must be at least SGDTSIZE * so that the tuple can be converted to REDIRECT status later. (This * restriction only adds bytes for the null-datum case, otherwise alignment * restrictions force it anyway.) * * In a leaf tuple for a NULL indexed value, there's no useful datum value; * however, the SGDTSIZE limit ensures that's there's a Datum word there * anyway, so SGLTDATUM can be applied safely as long as you don't do * anything with the result. */ typedef struct SpGistLeafTupleData { unsigned int tupstate:2, /* LIVE/REDIRECT/DEAD/PLACEHOLDER */ size:30; /* large enough for any palloc'able value */ OffsetNumber nextOffset; /* next tuple in chain, or InvalidOffset */ ItemPointerData heapPtr; /* TID of represented heap tuple */ /* leaf datum follows */ } SpGistLeafTupleData; typedef SpGistLeafTupleData *SpGistLeafTuple; #define SGLTHDRSZ MAXALIGN(sizeof(SpGistLeafTupleData)) #define SGLTDATAPTR(x) (((char *) (x)) + SGLTHDRSZ) #define SGLTDATUM(x, s) ((s)->attType.attbyval ? \ *(Datum *) SGLTDATAPTR(x) : \ PointerGetDatum(SGLTDATAPTR(x))) /* * SPGiST dead tuple: declaration for examining non-live tuples * * The tupstate field of this struct must match those of regular inner and * leaf tuples, and its size field must match a leaf tuple's. * Also, the pointer field must be in the same place as a leaf tuple's heapPtr * field, to satisfy some Asserts that we make when replacing a leaf tuple * with a dead tuple. * We don't use nextOffset, but it's needed to align the pointer field. * pointer and xid are only valid when tupstate = REDIRECT. */ typedef struct SpGistDeadTupleData { unsigned int tupstate:2, /* LIVE/REDIRECT/DEAD/PLACEHOLDER */ size:30; OffsetNumber nextOffset; /* not used in dead tuples */ ItemPointerData pointer; /* redirection inside index */ TransactionId xid; /* ID of xact that inserted this tuple */ } SpGistDeadTupleData; typedef SpGistDeadTupleData *SpGistDeadTuple; #define SGDTSIZE MAXALIGN(sizeof(SpGistDeadTupleData)) /* * Macros for doing free-space calculations. Note that when adding up the * space needed for tuples, we always consider each tuple to need the tuple's * size plus sizeof(ItemIdData) (for the line pointer). This works correctly * so long as tuple sizes are always maxaligned. */ /* Page capacity after allowing for fixed header and special space */ #define SPGIST_PAGE_CAPACITY \ MAXALIGN_DOWN(BLCKSZ - \ SizeOfPageHeaderData - \ MAXALIGN(sizeof(SpGistPageOpaqueData))) /* * Compute free space on page, assuming that up to n placeholders can be * recycled if present (n should be the number of tuples to be inserted) */ #define SpGistPageGetFreeSpace(p, n) \ (PageGetExactFreeSpace(p) + \ Min(SpGistPageGetOpaque(p)->nPlaceholder, n) * \ (SGDTSIZE + sizeof(ItemIdData))) /* * XLOG stuff * * ACCEPT_RDATA_* can only use fixed-length rdata arrays, because of lengthof */ #define ACCEPT_RDATA_DATA(p, s, i) \ do { \ Assert((i) < lengthof(rdata)); \ rdata[i].data = (char *) (p); \ rdata[i].len = (s); \ rdata[i].buffer = InvalidBuffer; \ rdata[i].buffer_std = true; \ rdata[i].next = NULL; \ if ((i) > 0) \ rdata[(i) - 1].next = rdata + (i); \ } while(0) #define ACCEPT_RDATA_BUFFER(b, i) \ do { \ Assert((i) < lengthof(rdata)); \ rdata[i].data = NULL; \ rdata[i].len = 0; \ rdata[i].buffer = (b); \ rdata[i].buffer_std = true; \ rdata[i].next = NULL; \ if ((i) > 0) \ rdata[(i) - 1].next = rdata + (i); \ } while(0) /* XLOG record types for SPGiST */ #define XLOG_SPGIST_CREATE_INDEX 0x00 #define XLOG_SPGIST_ADD_LEAF 0x10 #define XLOG_SPGIST_MOVE_LEAFS 0x20 #define XLOG_SPGIST_ADD_NODE 0x30 #define XLOG_SPGIST_SPLIT_TUPLE 0x40 #define XLOG_SPGIST_PICKSPLIT 0x50 #define XLOG_SPGIST_VACUUM_LEAF 0x60 #define XLOG_SPGIST_VACUUM_ROOT 0x70 #define XLOG_SPGIST_VACUUM_REDIRECT 0x80 /* * Some redo functions need an SpGistState, although only a few of its fields * need to be valid. spgxlogState carries the required info in xlog records. * (See fillFakeState in spgxlog.c for more comments.) */ typedef struct spgxlogState { TransactionId myXid; bool isBuild; } spgxlogState; #define STORE_STATE(s, d) \ do { \ (d).myXid = (s)->myXid; \ (d).isBuild = (s)->isBuild; \ } while(0) typedef struct spgxlogAddLeaf { RelFileNode node; BlockNumber blknoLeaf; /* destination page for leaf tuple */ bool newPage; /* init dest page? */ bool storesNulls; /* page is in the nulls tree? */ OffsetNumber offnumLeaf; /* offset where leaf tuple gets placed */ OffsetNumber offnumHeadLeaf; /* offset of head tuple in chain, if any */ BlockNumber blknoParent; /* where the parent downlink is, if any */ OffsetNumber offnumParent; uint16 nodeI; /* * new leaf tuple follows, on an intalign boundary (replay only needs to * fetch its size field, so that should be enough alignment) */ } spgxlogAddLeaf; typedef struct spgxlogMoveLeafs { RelFileNode node; BlockNumber blknoSrc; /* source leaf page */ BlockNumber blknoDst; /* destination leaf page */ uint16 nMoves; /* number of tuples moved from source page */ bool newPage; /* init dest page? */ bool replaceDead; /* are we replacing a DEAD source tuple? */ bool storesNulls; /* pages are in the nulls tree? */ BlockNumber blknoParent; /* where the parent downlink is */ OffsetNumber offnumParent; uint16 nodeI; spgxlogState stateSrc; /*---------- * data follows: * array of deleted tuple numbers, length nMoves * array of inserted tuple numbers, length nMoves + 1 or 1 * list of leaf tuples, length nMoves + 1 or 1 (must be maxaligned) * the tuple number arrays are padded to maxalign boundaries so that the * leaf tuples will be suitably aligned * * Note: if replaceDead is true then there is only one inserted tuple * number and only one leaf tuple in the data, because we are not copying * the dead tuple from the source * * Buffer references in the rdata array are: * Src page * Dest page * Parent page *---------- */ } spgxlogMoveLeafs; typedef struct spgxlogAddNode { RelFileNode node; BlockNumber blkno; /* block number of original inner tuple */ OffsetNumber offnum; /* offset of original inner tuple */ BlockNumber blknoParent; /* where parent downlink is, if updated */ OffsetNumber offnumParent; uint16 nodeI; BlockNumber blknoNew; /* where new tuple goes, if not same place */ OffsetNumber offnumNew; bool newPage; /* init new page? */ spgxlogState stateSrc; /* * updated inner tuple follows, on an intalign boundary (replay only needs * to fetch its size field, so that should be enough alignment) */ } spgxlogAddNode; typedef struct spgxlogSplitTuple { RelFileNode node; BlockNumber blknoPrefix; /* where the prefix tuple goes */ OffsetNumber offnumPrefix; BlockNumber blknoPostfix; /* where the postfix tuple goes */ OffsetNumber offnumPostfix; bool newPage; /* need to init that page? */ /* * new prefix inner tuple follows, then new postfix inner tuple, on * intalign boundaries (replay only needs to fetch size fields, so that * should be enough alignment) */ } spgxlogSplitTuple; typedef struct spgxlogPickSplit { RelFileNode node; BlockNumber blknoSrc; /* original leaf page */ BlockNumber blknoDest; /* other leaf page, if any */ uint16 nDelete; /* n to delete from Src */ uint16 nInsert; /* n to insert on Src and/or Dest */ bool initSrc; /* re-init the Src page? */ bool initDest; /* re-init the Dest page? */ BlockNumber blknoInner; /* where to put new inner tuple */ OffsetNumber offnumInner; bool initInner; /* re-init the Inner page? */ bool storesNulls; /* pages are in the nulls tree? */ BlockNumber blknoParent; /* where the parent downlink is, if any */ OffsetNumber offnumParent; uint16 nodeI; spgxlogState stateSrc; /*---------- * data follows: * new inner tuple (assumed to have a maxaligned length) * array of deleted tuple numbers, length nDelete * array of inserted tuple numbers, length nInsert * array of page selector bytes for inserted tuples, length nInsert * list of leaf tuples, length nInsert (must be maxaligned) * the tuple number and page selector arrays are padded to maxalign * boundaries so that the leaf tuples will be suitably aligned * * Buffer references in the rdata array are: * Src page (only if not root and not being init'd) * Dest page (if used and not being init'd) * Inner page (only if not being init'd) * Parent page (if any; could be same as Inner) *---------- */ } spgxlogPickSplit; typedef struct spgxlogVacuumLeaf { RelFileNode node; BlockNumber blkno; /* block number to clean */ uint16 nDead; /* number of tuples to become DEAD */ uint16 nPlaceholder; /* number of tuples to become PLACEHOLDER */ uint16 nMove; /* number of tuples to move */ uint16 nChain; /* number of tuples to re-chain */ spgxlogState stateSrc; /*---------- * data follows: * tuple numbers to become DEAD * tuple numbers to become PLACEHOLDER * tuple numbers to move from (and replace with PLACEHOLDER) * tuple numbers to move to (replacing what is there) * tuple numbers to update nextOffset links of * tuple numbers to insert in nextOffset links *---------- */ } spgxlogVacuumLeaf; typedef struct spgxlogVacuumRoot { /* vacuum a root page when it is also a leaf */ RelFileNode node; BlockNumber blkno; /* block number to clean */ uint16 nDelete; /* number of tuples to delete */ spgxlogState stateSrc; /* offsets of tuples to delete follow */ } spgxlogVacuumRoot; typedef struct spgxlogVacuumRedirect { RelFileNode node; BlockNumber blkno; /* block number to clean */ uint16 nToPlaceholder; /* number of redirects to make placeholders */ OffsetNumber firstPlaceholder; /* first placeholder tuple to remove */ TransactionId newestRedirectXid; /* newest XID of removed redirects */ /* offsets of redirect tuples to make placeholders follow */ } spgxlogVacuumRedirect; /* * The "flags" argument for SpGistGetBuffer should be either GBUF_LEAF to * get a leaf page, or GBUF_INNER_PARITY(blockNumber) to get an inner * page in the same triple-parity group as the specified block number. * (Typically, this should be GBUF_INNER_PARITY(parentBlockNumber + 1) * to follow the rule described in spgist/README.) * In addition, GBUF_NULLS can be OR'd in to get a page for storage of * null-valued tuples. * * Note: these flag values are used as indexes into lastUsedPages. */ #define GBUF_LEAF 0x03 #define GBUF_INNER_PARITY(x) ((x) % 3) #define GBUF_NULLS 0x04 #define GBUF_PARITY_MASK 0x03 #define GBUF_REQ_LEAF(flags) (((flags) & GBUF_PARITY_MASK) == GBUF_LEAF) #define GBUF_REQ_NULLS(flags) ((flags) & GBUF_NULLS) /* spgutils.c */ extern SpGistCache *spgGetCache(Relation index); extern void initSpGistState(SpGistState *state, Relation index); extern Buffer SpGistNewBuffer(Relation index); extern void SpGistUpdateMetaPage(Relation index); extern Buffer SpGistGetBuffer(Relation index, int flags, int needSpace, bool *isNew); extern void SpGistSetLastUsedPage(Relation index, Buffer buffer); extern void SpGistInitPage(Page page, uint16 f); extern void SpGistInitBuffer(Buffer b, uint16 f); extern void SpGistInitMetapage(Page page); extern unsigned int SpGistGetTypeSize(SpGistTypeDesc *att, Datum datum); extern SpGistLeafTuple spgFormLeafTuple(SpGistState *state, ItemPointer heapPtr, Datum datum, bool isnull); extern SpGistNodeTuple spgFormNodeTuple(SpGistState *state, Datum label, bool isnull); extern SpGistInnerTuple spgFormInnerTuple(SpGistState *state, bool hasPrefix, Datum prefix, int nNodes, SpGistNodeTuple *nodes); extern SpGistDeadTuple spgFormDeadTuple(SpGistState *state, int tupstate, BlockNumber blkno, OffsetNumber offnum); extern Datum *spgExtractNodeLabels(SpGistState *state, SpGistInnerTuple innerTuple); extern OffsetNumber SpGistPageAddNewItem(SpGistState *state, Page page, Item item, Size size, OffsetNumber *startOffset, bool errorOK); /* spgdoinsert.c */ extern void spgUpdateNodeLink(SpGistInnerTuple tup, int nodeN, BlockNumber blkno, OffsetNumber offset); extern void spgPageIndexMultiDelete(SpGistState *state, Page page, OffsetNumber *itemnos, int nitems, int firststate, int reststate, BlockNumber blkno, OffsetNumber offnum); extern bool spgdoinsert(Relation index, SpGistState *state, ItemPointer heapPtr, Datum datum, bool isnull); #endif /* SPGIST_PRIVATE_H */