LCOV - code coverage report
Current view: top level - src/backend/access/index - indexam.c (source / functions) Hit Total Coverage
Test: PostgreSQL 18devel Lines: 238 243 97.9 %
Date: 2025-04-01 15:15:16 Functions: 28 28 100.0 %
Legend: Lines: hit not hit

          Line data    Source code
       1             : /*-------------------------------------------------------------------------
       2             :  *
       3             :  * indexam.c
       4             :  *    general index access method routines
       5             :  *
       6             :  * Portions Copyright (c) 1996-2025, PostgreSQL Global Development Group
       7             :  * Portions Copyright (c) 1994, Regents of the University of California
       8             :  *
       9             :  *
      10             :  * IDENTIFICATION
      11             :  *    src/backend/access/index/indexam.c
      12             :  *
      13             :  * INTERFACE ROUTINES
      14             :  *      index_open      - open an index relation by relation OID
      15             :  *      index_close     - close an index relation
      16             :  *      index_beginscan - start a scan of an index with amgettuple
      17             :  *      index_beginscan_bitmap - start a scan of an index with amgetbitmap
      18             :  *      index_rescan    - restart a scan of an index
      19             :  *      index_endscan   - end a scan
      20             :  *      index_insert    - insert an index tuple into a relation
      21             :  *      index_markpos   - mark a scan position
      22             :  *      index_restrpos  - restore a scan position
      23             :  *      index_parallelscan_estimate - estimate shared memory for parallel scan
      24             :  *      index_parallelscan_initialize - initialize parallel scan
      25             :  *      index_parallelrescan  - (re)start a parallel scan of an index
      26             :  *      index_beginscan_parallel - join parallel index scan
      27             :  *      index_getnext_tid   - get the next TID from a scan
      28             :  *      index_fetch_heap        - get the scan's next heap tuple
      29             :  *      index_getnext_slot  - get the next tuple from a scan
      30             :  *      index_getbitmap - get all tuples from a scan
      31             :  *      index_bulk_delete   - bulk deletion of index tuples
      32             :  *      index_vacuum_cleanup    - post-deletion cleanup of an index
      33             :  *      index_can_return    - does index support index-only scans?
      34             :  *      index_getprocid - get a support procedure OID
      35             :  *      index_getprocinfo - get a support procedure's lookup info
      36             :  *
      37             :  * NOTES
      38             :  *      This file contains the index_ routines which used
      39             :  *      to be a scattered collection of stuff in access/genam.
      40             :  *
      41             :  *-------------------------------------------------------------------------
      42             :  */
      43             : 
      44             : #include "postgres.h"
      45             : 
      46             : #include "access/amapi.h"
      47             : #include "access/relation.h"
      48             : #include "access/reloptions.h"
      49             : #include "access/relscan.h"
      50             : #include "access/tableam.h"
      51             : #include "catalog/index.h"
      52             : #include "catalog/pg_type.h"
      53             : #include "nodes/execnodes.h"
      54             : #include "pgstat.h"
      55             : #include "storage/lmgr.h"
      56             : #include "storage/predicate.h"
      57             : #include "utils/ruleutils.h"
      58             : #include "utils/snapmgr.h"
      59             : #include "utils/syscache.h"
      60             : 
      61             : 
      62             : /* ----------------------------------------------------------------
      63             :  *                  macros used in index_ routines
      64             :  *
      65             :  * Note: the ReindexIsProcessingIndex() check in RELATION_CHECKS is there
      66             :  * to check that we don't try to scan or do retail insertions into an index
      67             :  * that is currently being rebuilt or pending rebuild.  This helps to catch
      68             :  * things that don't work when reindexing system catalogs, as well as prevent
      69             :  * user errors like index expressions that access their own tables.  The check
      70             :  * doesn't prevent the actual rebuild because we don't use RELATION_CHECKS
      71             :  * when calling the index AM's ambuild routine, and there is no reason for
      72             :  * ambuild to call its subsidiary routines through this file.
      73             :  * ----------------------------------------------------------------
      74             :  */
      75             : #define RELATION_CHECKS \
      76             : do { \
      77             :     Assert(RelationIsValid(indexRelation)); \
      78             :     Assert(PointerIsValid(indexRelation->rd_indam)); \
      79             :     if (unlikely(ReindexIsProcessingIndex(RelationGetRelid(indexRelation)))) \
      80             :         ereport(ERROR, \
      81             :                 (errcode(ERRCODE_FEATURE_NOT_SUPPORTED), \
      82             :                  errmsg("cannot access index \"%s\" while it is being reindexed", \
      83             :                         RelationGetRelationName(indexRelation)))); \
      84             : } while(0)
      85             : 
      86             : #define SCAN_CHECKS \
      87             : ( \
      88             :     AssertMacro(IndexScanIsValid(scan)), \
      89             :     AssertMacro(RelationIsValid(scan->indexRelation)), \
      90             :     AssertMacro(PointerIsValid(scan->indexRelation->rd_indam)) \
      91             : )
      92             : 
      93             : #define CHECK_REL_PROCEDURE(pname) \
      94             : do { \
      95             :     if (indexRelation->rd_indam->pname == NULL) \
      96             :         elog(ERROR, "function \"%s\" is not defined for index \"%s\"", \
      97             :              CppAsString(pname), RelationGetRelationName(indexRelation)); \
      98             : } while(0)
      99             : 
     100             : #define CHECK_SCAN_PROCEDURE(pname) \
     101             : do { \
     102             :     if (scan->indexRelation->rd_indam->pname == NULL) \
     103             :         elog(ERROR, "function \"%s\" is not defined for index \"%s\"", \
     104             :              CppAsString(pname), RelationGetRelationName(scan->indexRelation)); \
     105             : } while(0)
     106             : 
     107             : static IndexScanDesc index_beginscan_internal(Relation indexRelation,
     108             :                                               int nkeys, int norderbys, Snapshot snapshot,
     109             :                                               ParallelIndexScanDesc pscan, bool temp_snap);
     110             : static inline void validate_relation_kind(Relation r);
     111             : 
     112             : 
     113             : /* ----------------------------------------------------------------
     114             :  *                 index_ interface functions
     115             :  * ----------------------------------------------------------------
     116             :  */
     117             : 
     118             : /* ----------------
     119             :  *      index_open - open an index relation by relation OID
     120             :  *
     121             :  *      If lockmode is not "NoLock", the specified kind of lock is
     122             :  *      obtained on the index.  (Generally, NoLock should only be
     123             :  *      used if the caller knows it has some appropriate lock on the
     124             :  *      index already.)
     125             :  *
     126             :  *      An error is raised if the index does not exist.
     127             :  *
     128             :  *      This is a convenience routine adapted for indexscan use.
     129             :  *      Some callers may prefer to use relation_open directly.
     130             :  * ----------------
     131             :  */
     132             : Relation
     133    18375416 : index_open(Oid relationId, LOCKMODE lockmode)
     134             : {
     135             :     Relation    r;
     136             : 
     137    18375416 :     r = relation_open(relationId, lockmode);
     138             : 
     139    18375402 :     validate_relation_kind(r);
     140             : 
     141    18375380 :     return r;
     142             : }
     143             : 
     144             : /* ----------------
     145             :  *      try_index_open - open an index relation by relation OID
     146             :  *
     147             :  *      Same as index_open, except return NULL instead of failing
     148             :  *      if the relation does not exist.
     149             :  * ----------------
     150             :  */
     151             : Relation
     152        2132 : try_index_open(Oid relationId, LOCKMODE lockmode)
     153             : {
     154             :     Relation    r;
     155             : 
     156        2132 :     r = try_relation_open(relationId, lockmode);
     157             : 
     158             :     /* leave if index does not exist */
     159        2132 :     if (!r)
     160           0 :         return NULL;
     161             : 
     162        2132 :     validate_relation_kind(r);
     163             : 
     164        2132 :     return r;
     165             : }
     166             : 
     167             : /* ----------------
     168             :  *      index_close - close an index relation
     169             :  *
     170             :  *      If lockmode is not "NoLock", we then release the specified lock.
     171             :  *
     172             :  *      Note that it is often sensible to hold a lock beyond index_close;
     173             :  *      in that case, the lock is released automatically at xact end.
     174             :  * ----------------
     175             :  */
     176             : void
     177    18409226 : index_close(Relation relation, LOCKMODE lockmode)
     178             : {
     179    18409226 :     LockRelId   relid = relation->rd_lockInfo.lockRelId;
     180             : 
     181             :     Assert(lockmode >= NoLock && lockmode < MAX_LOCKMODES);
     182             : 
     183             :     /* The relcache does the real work... */
     184    18409226 :     RelationClose(relation);
     185             : 
     186    18409226 :     if (lockmode != NoLock)
     187    16864128 :         UnlockRelationId(&relid, lockmode);
     188    18409226 : }
     189             : 
     190             : /* ----------------
     191             :  *      validate_relation_kind - check the relation's kind
     192             :  *
     193             :  *      Make sure relkind is an index or a partitioned index.
     194             :  * ----------------
     195             :  */
     196             : static inline void
     197    18377534 : validate_relation_kind(Relation r)
     198             : {
     199    18377534 :     if (r->rd_rel->relkind != RELKIND_INDEX &&
     200       10948 :         r->rd_rel->relkind != RELKIND_PARTITIONED_INDEX)
     201          22 :         ereport(ERROR,
     202             :                 (errcode(ERRCODE_WRONG_OBJECT_TYPE),
     203             :                  errmsg("\"%s\" is not an index",
     204             :                         RelationGetRelationName(r))));
     205    18377512 : }
     206             : 
     207             : 
     208             : /* ----------------
     209             :  *      index_insert - insert an index tuple into a relation
     210             :  * ----------------
     211             :  */
     212             : bool
     213     8384084 : index_insert(Relation indexRelation,
     214             :              Datum *values,
     215             :              bool *isnull,
     216             :              ItemPointer heap_t_ctid,
     217             :              Relation heapRelation,
     218             :              IndexUniqueCheck checkUnique,
     219             :              bool indexUnchanged,
     220             :              IndexInfo *indexInfo)
     221             : {
     222     8384084 :     RELATION_CHECKS;
     223     8384084 :     CHECK_REL_PROCEDURE(aminsert);
     224             : 
     225     8384084 :     if (!(indexRelation->rd_indam->ampredlocks))
     226      576918 :         CheckForSerializableConflictIn(indexRelation,
     227             :                                        (ItemPointer) NULL,
     228             :                                        InvalidBlockNumber);
     229             : 
     230     8384084 :     return indexRelation->rd_indam->aminsert(indexRelation, values, isnull,
     231             :                                              heap_t_ctid, heapRelation,
     232             :                                              checkUnique, indexUnchanged,
     233             :                                              indexInfo);
     234             : }
     235             : 
     236             : /* -------------------------
     237             :  *      index_insert_cleanup - clean up after all index inserts are done
     238             :  * -------------------------
     239             :  */
     240             : void
     241     3262396 : index_insert_cleanup(Relation indexRelation,
     242             :                      IndexInfo *indexInfo)
     243             : {
     244     3262396 :     RELATION_CHECKS;
     245             : 
     246     3262396 :     if (indexRelation->rd_indam->aminsertcleanup)
     247        1154 :         indexRelation->rd_indam->aminsertcleanup(indexRelation, indexInfo);
     248     3262396 : }
     249             : 
     250             : /*
     251             :  * index_beginscan - start a scan of an index with amgettuple
     252             :  *
     253             :  * Caller must be holding suitable locks on the heap and the index.
     254             :  */
     255             : IndexScanDesc
     256    13753744 : index_beginscan(Relation heapRelation,
     257             :                 Relation indexRelation,
     258             :                 Snapshot snapshot,
     259             :                 IndexScanInstrumentation *instrument,
     260             :                 int nkeys, int norderbys)
     261             : {
     262             :     IndexScanDesc scan;
     263             : 
     264             :     Assert(snapshot != InvalidSnapshot);
     265             : 
     266    13753744 :     scan = index_beginscan_internal(indexRelation, nkeys, norderbys, snapshot, NULL, false);
     267             : 
     268             :     /*
     269             :      * Save additional parameters into the scandesc.  Everything else was set
     270             :      * up by RelationGetIndexScan.
     271             :      */
     272    13753744 :     scan->heapRelation = heapRelation;
     273    13753744 :     scan->xs_snapshot = snapshot;
     274    13753744 :     scan->instrument = instrument;
     275             : 
     276             :     /* prepare to fetch index matches from table */
     277    13753744 :     scan->xs_heapfetch = table_index_fetch_begin(heapRelation);
     278             : 
     279    13753744 :     return scan;
     280             : }
     281             : 
     282             : /*
     283             :  * index_beginscan_bitmap - start a scan of an index with amgetbitmap
     284             :  *
     285             :  * As above, caller had better be holding some lock on the parent heap
     286             :  * relation, even though it's not explicitly mentioned here.
     287             :  */
     288             : IndexScanDesc
     289       23146 : index_beginscan_bitmap(Relation indexRelation,
     290             :                        Snapshot snapshot,
     291             :                        IndexScanInstrumentation *instrument,
     292             :                        int nkeys)
     293             : {
     294             :     IndexScanDesc scan;
     295             : 
     296             :     Assert(snapshot != InvalidSnapshot);
     297             : 
     298       23146 :     scan = index_beginscan_internal(indexRelation, nkeys, 0, snapshot, NULL, false);
     299             : 
     300             :     /*
     301             :      * Save additional parameters into the scandesc.  Everything else was set
     302             :      * up by RelationGetIndexScan.
     303             :      */
     304       23146 :     scan->xs_snapshot = snapshot;
     305       23146 :     scan->instrument = instrument;
     306             : 
     307       23146 :     return scan;
     308             : }
     309             : 
     310             : /*
     311             :  * index_beginscan_internal --- common code for index_beginscan variants
     312             :  */
     313             : static IndexScanDesc
     314    13777280 : index_beginscan_internal(Relation indexRelation,
     315             :                          int nkeys, int norderbys, Snapshot snapshot,
     316             :                          ParallelIndexScanDesc pscan, bool temp_snap)
     317             : {
     318             :     IndexScanDesc scan;
     319             : 
     320    13777280 :     RELATION_CHECKS;
     321    13777280 :     CHECK_REL_PROCEDURE(ambeginscan);
     322             : 
     323    13777280 :     if (!(indexRelation->rd_indam->ampredlocks))
     324        4624 :         PredicateLockRelation(indexRelation, snapshot);
     325             : 
     326             :     /*
     327             :      * We hold a reference count to the relcache entry throughout the scan.
     328             :      */
     329    13777280 :     RelationIncrementReferenceCount(indexRelation);
     330             : 
     331             :     /*
     332             :      * Tell the AM to open a scan.
     333             :      */
     334    13777280 :     scan = indexRelation->rd_indam->ambeginscan(indexRelation, nkeys,
     335             :                                                 norderbys);
     336             :     /* Initialize information for parallel scan. */
     337    13777280 :     scan->parallel_scan = pscan;
     338    13777280 :     scan->xs_temp_snap = temp_snap;
     339             : 
     340    13777280 :     return scan;
     341             : }
     342             : 
     343             : /* ----------------
     344             :  *      index_rescan  - (re)start a scan of an index
     345             :  *
     346             :  * During a restart, the caller may specify a new set of scankeys and/or
     347             :  * orderbykeys; but the number of keys cannot differ from what index_beginscan
     348             :  * was told.  (Later we might relax that to "must not exceed", but currently
     349             :  * the index AMs tend to assume that scan->numberOfKeys is what to believe.)
     350             :  * To restart the scan without changing keys, pass NULL for the key arrays.
     351             :  * (Of course, keys *must* be passed on the first call, unless
     352             :  * scan->numberOfKeys is zero.)
     353             :  * ----------------
     354             :  */
     355             : void
     356    14438436 : index_rescan(IndexScanDesc scan,
     357             :              ScanKey keys, int nkeys,
     358             :              ScanKey orderbys, int norderbys)
     359             : {
     360             :     SCAN_CHECKS;
     361    14438436 :     CHECK_SCAN_PROCEDURE(amrescan);
     362             : 
     363             :     Assert(nkeys == scan->numberOfKeys);
     364             :     Assert(norderbys == scan->numberOfOrderBys);
     365             : 
     366             :     /* Release resources (like buffer pins) from table accesses */
     367    14438436 :     if (scan->xs_heapfetch)
     368    14411416 :         table_index_fetch_reset(scan->xs_heapfetch);
     369             : 
     370    14438436 :     scan->kill_prior_tuple = false; /* for safety */
     371    14438436 :     scan->xs_heap_continue = false;
     372             : 
     373    14438436 :     scan->indexRelation->rd_indam->amrescan(scan, keys, nkeys,
     374             :                                             orderbys, norderbys);
     375    14438436 : }
     376             : 
     377             : /* ----------------
     378             :  *      index_endscan - end a scan
     379             :  * ----------------
     380             :  */
     381             : void
     382    13775492 : index_endscan(IndexScanDesc scan)
     383             : {
     384             :     SCAN_CHECKS;
     385    13775492 :     CHECK_SCAN_PROCEDURE(amendscan);
     386             : 
     387             :     /* Release resources (like buffer pins) from table accesses */
     388    13775492 :     if (scan->xs_heapfetch)
     389             :     {
     390    13752448 :         table_index_fetch_end(scan->xs_heapfetch);
     391    13752448 :         scan->xs_heapfetch = NULL;
     392             :     }
     393             : 
     394             :     /* End the AM's scan */
     395    13775492 :     scan->indexRelation->rd_indam->amendscan(scan);
     396             : 
     397             :     /* Release index refcount acquired by index_beginscan */
     398    13775492 :     RelationDecrementReferenceCount(scan->indexRelation);
     399             : 
     400    13775492 :     if (scan->xs_temp_snap)
     401         390 :         UnregisterSnapshot(scan->xs_snapshot);
     402             : 
     403             :     /* Release the scan data structure itself */
     404    13775492 :     IndexScanEnd(scan);
     405    13775492 : }
     406             : 
     407             : /* ----------------
     408             :  *      index_markpos  - mark a scan position
     409             :  * ----------------
     410             :  */
     411             : void
     412      130074 : index_markpos(IndexScanDesc scan)
     413             : {
     414             :     SCAN_CHECKS;
     415      130074 :     CHECK_SCAN_PROCEDURE(ammarkpos);
     416             : 
     417      130074 :     scan->indexRelation->rd_indam->ammarkpos(scan);
     418      130074 : }
     419             : 
     420             : /* ----------------
     421             :  *      index_restrpos  - restore a scan position
     422             :  *
     423             :  * NOTE: this only restores the internal scan state of the index AM.  See
     424             :  * comments for ExecRestrPos().
     425             :  *
     426             :  * NOTE: For heap, in the presence of HOT chains, mark/restore only works
     427             :  * correctly if the scan's snapshot is MVCC-safe; that ensures that there's at
     428             :  * most one returnable tuple in each HOT chain, and so restoring the prior
     429             :  * state at the granularity of the index AM is sufficient.  Since the only
     430             :  * current user of mark/restore functionality is nodeMergejoin.c, this
     431             :  * effectively means that merge-join plans only work for MVCC snapshots.  This
     432             :  * could be fixed if necessary, but for now it seems unimportant.
     433             :  * ----------------
     434             :  */
     435             : void
     436       54018 : index_restrpos(IndexScanDesc scan)
     437             : {
     438             :     Assert(IsMVCCSnapshot(scan->xs_snapshot));
     439             : 
     440             :     SCAN_CHECKS;
     441       54018 :     CHECK_SCAN_PROCEDURE(amrestrpos);
     442             : 
     443             :     /* release resources (like buffer pins) from table accesses */
     444       54018 :     if (scan->xs_heapfetch)
     445       54018 :         table_index_fetch_reset(scan->xs_heapfetch);
     446             : 
     447       54018 :     scan->kill_prior_tuple = false; /* for safety */
     448       54018 :     scan->xs_heap_continue = false;
     449             : 
     450       54018 :     scan->indexRelation->rd_indam->amrestrpos(scan);
     451       54018 : }
     452             : 
     453             : /*
     454             :  * index_parallelscan_estimate - estimate shared memory for parallel scan
     455             :  *
     456             :  * When instrument=true, estimate includes SharedIndexScanInstrumentation
     457             :  * space.  When parallel_aware=true, estimate includes whatever space the
     458             :  * index AM's amestimateparallelscan routine requested when called.
     459             :  */
     460             : Size
     461         334 : index_parallelscan_estimate(Relation indexRelation, int nkeys, int norderbys,
     462             :                             Snapshot snapshot, bool instrument,
     463             :                             bool parallel_aware, int nworkers)
     464             : {
     465             :     Size        nbytes;
     466             : 
     467             :     Assert(instrument || parallel_aware);
     468             : 
     469         334 :     RELATION_CHECKS;
     470             : 
     471         334 :     nbytes = offsetof(ParallelIndexScanDescData, ps_snapshot_data);
     472         334 :     nbytes = add_size(nbytes, EstimateSnapshotSpace(snapshot));
     473         334 :     nbytes = MAXALIGN(nbytes);
     474             : 
     475         334 :     if (instrument)
     476             :     {
     477             :         Size        sharedinfosz;
     478             : 
     479         270 :         sharedinfosz = offsetof(SharedIndexScanInstrumentation, winstrument) +
     480             :             nworkers * sizeof(IndexScanInstrumentation);
     481         270 :         nbytes = add_size(nbytes, sharedinfosz);
     482         270 :         nbytes = MAXALIGN(nbytes);
     483             :     }
     484             : 
     485             :     /*
     486             :      * If parallel scan index AM interface can't be used (or index AM provides
     487             :      * no such interface), assume there is no AM-specific data needed
     488             :      */
     489         334 :     if (parallel_aware &&
     490          64 :         indexRelation->rd_indam->amestimateparallelscan != NULL)
     491          64 :         nbytes = add_size(nbytes,
     492          64 :                           indexRelation->rd_indam->amestimateparallelscan(nkeys,
     493             :                                                                           norderbys));
     494             : 
     495         334 :     return nbytes;
     496             : }
     497             : 
     498             : /*
     499             :  * index_parallelscan_initialize - initialize parallel scan
     500             :  *
     501             :  * We initialize both the ParallelIndexScanDesc proper and the AM-specific
     502             :  * information which follows it.
     503             :  *
     504             :  * This function calls access method specific initialization routine to
     505             :  * initialize am specific information.  Call this just once in the leader
     506             :  * process; then, individual workers attach via index_beginscan_parallel.
     507             :  */
     508             : void
     509         334 : index_parallelscan_initialize(Relation heapRelation, Relation indexRelation,
     510             :                               Snapshot snapshot, bool instrument,
     511             :                               bool parallel_aware, int nworkers,
     512             :                               SharedIndexScanInstrumentation **sharedinfo,
     513             :                               ParallelIndexScanDesc target)
     514             : {
     515             :     Size        offset;
     516             : 
     517             :     Assert(instrument || parallel_aware);
     518             : 
     519         334 :     RELATION_CHECKS;
     520             : 
     521         334 :     offset = add_size(offsetof(ParallelIndexScanDescData, ps_snapshot_data),
     522             :                       EstimateSnapshotSpace(snapshot));
     523         334 :     offset = MAXALIGN(offset);
     524             : 
     525         334 :     target->ps_locator = heapRelation->rd_locator;
     526         334 :     target->ps_indexlocator = indexRelation->rd_locator;
     527         334 :     target->ps_offset_ins = 0;
     528         334 :     target->ps_offset_am = 0;
     529         334 :     SerializeSnapshot(snapshot, target->ps_snapshot_data);
     530             : 
     531         334 :     if (instrument)
     532             :     {
     533             :         Size        sharedinfosz;
     534             : 
     535         270 :         target->ps_offset_ins = offset;
     536         270 :         sharedinfosz = offsetof(SharedIndexScanInstrumentation, winstrument) +
     537             :             nworkers * sizeof(IndexScanInstrumentation);
     538         270 :         offset = add_size(offset, sharedinfosz);
     539         270 :         offset = MAXALIGN(offset);
     540             : 
     541             :         /* Set leader's *sharedinfo pointer, and initialize stats */
     542         270 :         *sharedinfo = (SharedIndexScanInstrumentation *)
     543         270 :             OffsetToPointer(target, target->ps_offset_ins);
     544         270 :         memset(*sharedinfo, 0, sharedinfosz);
     545         270 :         (*sharedinfo)->num_workers = nworkers;
     546             :     }
     547             : 
     548             :     /* aminitparallelscan is optional; assume no-op if not provided by AM */
     549         334 :     if (parallel_aware && indexRelation->rd_indam->aminitparallelscan != NULL)
     550             :     {
     551             :         void       *amtarget;
     552             : 
     553          64 :         target->ps_offset_am = offset;
     554          64 :         amtarget = OffsetToPointer(target, target->ps_offset_am);
     555          64 :         indexRelation->rd_indam->aminitparallelscan(amtarget);
     556             :     }
     557         334 : }
     558             : 
     559             : /* ----------------
     560             :  *      index_parallelrescan  - (re)start a parallel scan of an index
     561             :  * ----------------
     562             :  */
     563             : void
     564          24 : index_parallelrescan(IndexScanDesc scan)
     565             : {
     566             :     SCAN_CHECKS;
     567             : 
     568          24 :     if (scan->xs_heapfetch)
     569          24 :         table_index_fetch_reset(scan->xs_heapfetch);
     570             : 
     571             :     /* amparallelrescan is optional; assume no-op if not provided by AM */
     572          24 :     if (scan->indexRelation->rd_indam->amparallelrescan != NULL)
     573          24 :         scan->indexRelation->rd_indam->amparallelrescan(scan);
     574          24 : }
     575             : 
     576             : /*
     577             :  * index_beginscan_parallel - join parallel index scan
     578             :  *
     579             :  * Caller must be holding suitable locks on the heap and the index.
     580             :  */
     581             : IndexScanDesc
     582         390 : index_beginscan_parallel(Relation heaprel, Relation indexrel,
     583             :                          IndexScanInstrumentation *instrument,
     584             :                          int nkeys, int norderbys,
     585             :                          ParallelIndexScanDesc pscan)
     586             : {
     587             :     Snapshot    snapshot;
     588             :     IndexScanDesc scan;
     589             : 
     590             :     Assert(RelFileLocatorEquals(heaprel->rd_locator, pscan->ps_locator));
     591             :     Assert(RelFileLocatorEquals(indexrel->rd_locator, pscan->ps_indexlocator));
     592             : 
     593         390 :     snapshot = RestoreSnapshot(pscan->ps_snapshot_data);
     594         390 :     RegisterSnapshot(snapshot);
     595         390 :     scan = index_beginscan_internal(indexrel, nkeys, norderbys, snapshot,
     596             :                                     pscan, true);
     597             : 
     598             :     /*
     599             :      * Save additional parameters into the scandesc.  Everything else was set
     600             :      * up by index_beginscan_internal.
     601             :      */
     602         390 :     scan->heapRelation = heaprel;
     603         390 :     scan->xs_snapshot = snapshot;
     604         390 :     scan->instrument = instrument;
     605             : 
     606             :     /* prepare to fetch index matches from table */
     607         390 :     scan->xs_heapfetch = table_index_fetch_begin(heaprel);
     608             : 
     609         390 :     return scan;
     610             : }
     611             : 
     612             : /* ----------------
     613             :  * index_getnext_tid - get the next TID from a scan
     614             :  *
     615             :  * The result is the next TID satisfying the scan keys,
     616             :  * or NULL if no more matching tuples exist.
     617             :  * ----------------
     618             :  */
     619             : ItemPointer
     620    34364108 : index_getnext_tid(IndexScanDesc scan, ScanDirection direction)
     621             : {
     622             :     bool        found;
     623             : 
     624             :     SCAN_CHECKS;
     625    34364108 :     CHECK_SCAN_PROCEDURE(amgettuple);
     626             : 
     627             :     /* XXX: we should assert that a snapshot is pushed or registered */
     628             :     Assert(TransactionIdIsValid(RecentXmin));
     629             : 
     630             :     /*
     631             :      * The AM's amgettuple proc finds the next index entry matching the scan
     632             :      * keys, and puts the TID into scan->xs_heaptid.  It should also set
     633             :      * scan->xs_recheck and possibly scan->xs_itup/scan->xs_hitup, though we
     634             :      * pay no attention to those fields here.
     635             :      */
     636    34364108 :     found = scan->indexRelation->rd_indam->amgettuple(scan, direction);
     637             : 
     638             :     /* Reset kill flag immediately for safety */
     639    34364108 :     scan->kill_prior_tuple = false;
     640    34364108 :     scan->xs_heap_continue = false;
     641             : 
     642             :     /* If we're out of index entries, we're done */
     643    34364108 :     if (!found)
     644             :     {
     645             :         /* release resources (like buffer pins) from table accesses */
     646     6503884 :         if (scan->xs_heapfetch)
     647     6503884 :             table_index_fetch_reset(scan->xs_heapfetch);
     648             : 
     649     6503884 :         return NULL;
     650             :     }
     651             :     Assert(ItemPointerIsValid(&scan->xs_heaptid));
     652             : 
     653    27860224 :     pgstat_count_index_tuples(scan->indexRelation, 1);
     654             : 
     655             :     /* Return the TID of the tuple we found. */
     656    27860224 :     return &scan->xs_heaptid;
     657             : }
     658             : 
     659             : /* ----------------
     660             :  *      index_fetch_heap - get the scan's next heap tuple
     661             :  *
     662             :  * The result is a visible heap tuple associated with the index TID most
     663             :  * recently fetched by index_getnext_tid, or NULL if no more matching tuples
     664             :  * exist.  (There can be more than one matching tuple because of HOT chains,
     665             :  * although when using an MVCC snapshot it should be impossible for more than
     666             :  * one such tuple to exist.)
     667             :  *
     668             :  * On success, the buffer containing the heap tup is pinned (the pin will be
     669             :  * dropped in a future index_getnext_tid, index_fetch_heap or index_endscan
     670             :  * call).
     671             :  *
     672             :  * Note: caller must check scan->xs_recheck, and perform rechecking of the
     673             :  * scan keys if required.  We do not do that here because we don't have
     674             :  * enough information to do it efficiently in the general case.
     675             :  * ----------------
     676             :  */
     677             : bool
     678    24404312 : index_fetch_heap(IndexScanDesc scan, TupleTableSlot *slot)
     679             : {
     680    24404312 :     bool        all_dead = false;
     681             :     bool        found;
     682             : 
     683    24404312 :     found = table_index_fetch_tuple(scan->xs_heapfetch, &scan->xs_heaptid,
     684             :                                     scan->xs_snapshot, slot,
     685             :                                     &scan->xs_heap_continue, &all_dead);
     686             : 
     687    24404302 :     if (found)
     688    23280748 :         pgstat_count_heap_fetch(scan->indexRelation);
     689             : 
     690             :     /*
     691             :      * If we scanned a whole HOT chain and found only dead tuples, tell index
     692             :      * AM to kill its entry for that TID (this will take effect in the next
     693             :      * amgettuple call, in index_getnext_tid).  We do not do this when in
     694             :      * recovery because it may violate MVCC to do so.  See comments in
     695             :      * RelationGetIndexScan().
     696             :      */
     697    24404302 :     if (!scan->xactStartedInRecovery)
     698    23917894 :         scan->kill_prior_tuple = all_dead;
     699             : 
     700    24404302 :     return found;
     701             : }
     702             : 
     703             : /* ----------------
     704             :  *      index_getnext_slot - get the next tuple from a scan
     705             :  *
     706             :  * The result is true if a tuple satisfying the scan keys and the snapshot was
     707             :  * found, false otherwise.  The tuple is stored in the specified slot.
     708             :  *
     709             :  * On success, resources (like buffer pins) are likely to be held, and will be
     710             :  * dropped by a future index_getnext_tid, index_fetch_heap or index_endscan
     711             :  * call).
     712             :  *
     713             :  * Note: caller must check scan->xs_recheck, and perform rechecking of the
     714             :  * scan keys if required.  We do not do that here because we don't have
     715             :  * enough information to do it efficiently in the general case.
     716             :  * ----------------
     717             :  */
     718             : bool
     719    28516254 : index_getnext_slot(IndexScanDesc scan, ScanDirection direction, TupleTableSlot *slot)
     720             : {
     721             :     for (;;)
     722             :     {
     723    28516254 :         if (!scan->xs_heap_continue)
     724             :         {
     725             :             ItemPointer tid;
     726             : 
     727             :             /* Time to fetch the next TID from the index */
     728    28358116 :             tid = index_getnext_tid(scan, direction);
     729             : 
     730             :             /* If we're out of index entries, we're done */
     731    28358116 :             if (tid == NULL)
     732     6300988 :                 break;
     733             : 
     734             :             Assert(ItemPointerEquals(tid, &scan->xs_heaptid));
     735             :         }
     736             : 
     737             :         /*
     738             :          * Fetch the next (or only) visible heap tuple for this index entry.
     739             :          * If we don't find anything, loop around and grab the next TID from
     740             :          * the index.
     741             :          */
     742             :         Assert(ItemPointerIsValid(&scan->xs_heaptid));
     743    22215266 :         if (index_fetch_heap(scan, slot))
     744    21291016 :             return true;
     745             :     }
     746             : 
     747     6300988 :     return false;
     748             : }
     749             : 
     750             : /* ----------------
     751             :  *      index_getbitmap - get all tuples at once from an index scan
     752             :  *
     753             :  * Adds the TIDs of all heap tuples satisfying the scan keys to a bitmap.
     754             :  * Since there's no interlock between the index scan and the eventual heap
     755             :  * access, this is only safe to use with MVCC-based snapshots: the heap
     756             :  * item slot could have been replaced by a newer tuple by the time we get
     757             :  * to it.
     758             :  *
     759             :  * Returns the number of matching tuples found.  (Note: this might be only
     760             :  * approximate, so it should only be used for statistical purposes.)
     761             :  * ----------------
     762             :  */
     763             : int64
     764       25794 : index_getbitmap(IndexScanDesc scan, TIDBitmap *bitmap)
     765             : {
     766             :     int64       ntids;
     767             : 
     768             :     SCAN_CHECKS;
     769       25794 :     CHECK_SCAN_PROCEDURE(amgetbitmap);
     770             : 
     771             :     /* just make sure this is false... */
     772       25794 :     scan->kill_prior_tuple = false;
     773             : 
     774             :     /*
     775             :      * have the am's getbitmap proc do all the work.
     776             :      */
     777       25794 :     ntids = scan->indexRelation->rd_indam->amgetbitmap(scan, bitmap);
     778             : 
     779       25794 :     pgstat_count_index_tuples(scan->indexRelation, ntids);
     780             : 
     781       25794 :     return ntids;
     782             : }
     783             : 
     784             : /* ----------------
     785             :  *      index_bulk_delete - do mass deletion of index entries
     786             :  *
     787             :  *      callback routine tells whether a given main-heap tuple is
     788             :  *      to be deleted
     789             :  *
     790             :  *      return value is an optional palloc'd struct of statistics
     791             :  * ----------------
     792             :  */
     793             : IndexBulkDeleteResult *
     794        2904 : index_bulk_delete(IndexVacuumInfo *info,
     795             :                   IndexBulkDeleteResult *istat,
     796             :                   IndexBulkDeleteCallback callback,
     797             :                   void *callback_state)
     798             : {
     799        2904 :     Relation    indexRelation = info->index;
     800             : 
     801        2904 :     RELATION_CHECKS;
     802        2904 :     CHECK_REL_PROCEDURE(ambulkdelete);
     803             : 
     804        2904 :     return indexRelation->rd_indam->ambulkdelete(info, istat,
     805             :                                                  callback, callback_state);
     806             : }
     807             : 
     808             : /* ----------------
     809             :  *      index_vacuum_cleanup - do post-deletion cleanup of an index
     810             :  *
     811             :  *      return value is an optional palloc'd struct of statistics
     812             :  * ----------------
     813             :  */
     814             : IndexBulkDeleteResult *
     815      163322 : index_vacuum_cleanup(IndexVacuumInfo *info,
     816             :                      IndexBulkDeleteResult *istat)
     817             : {
     818      163322 :     Relation    indexRelation = info->index;
     819             : 
     820      163322 :     RELATION_CHECKS;
     821      163322 :     CHECK_REL_PROCEDURE(amvacuumcleanup);
     822             : 
     823      163322 :     return indexRelation->rd_indam->amvacuumcleanup(info, istat);
     824             : }
     825             : 
     826             : /* ----------------
     827             :  *      index_can_return
     828             :  *
     829             :  *      Does the index access method support index-only scans for the given
     830             :  *      column?
     831             :  * ----------------
     832             :  */
     833             : bool
     834     1316826 : index_can_return(Relation indexRelation, int attno)
     835             : {
     836     1316826 :     RELATION_CHECKS;
     837             : 
     838             :     /* amcanreturn is optional; assume false if not provided by AM */
     839     1316826 :     if (indexRelation->rd_indam->amcanreturn == NULL)
     840      272948 :         return false;
     841             : 
     842     1043878 :     return indexRelation->rd_indam->amcanreturn(indexRelation, attno);
     843             : }
     844             : 
     845             : /* ----------------
     846             :  *      index_getprocid
     847             :  *
     848             :  *      Index access methods typically require support routines that are
     849             :  *      not directly the implementation of any WHERE-clause query operator
     850             :  *      and so cannot be kept in pg_amop.  Instead, such routines are kept
     851             :  *      in pg_amproc.  These registered procedure OIDs are assigned numbers
     852             :  *      according to a convention established by the access method.
     853             :  *      The general index code doesn't know anything about the routines
     854             :  *      involved; it just builds an ordered list of them for
     855             :  *      each attribute on which an index is defined.
     856             :  *
     857             :  *      As of Postgres 8.3, support routines within an operator family
     858             :  *      are further subdivided by the "left type" and "right type" of the
     859             :  *      query operator(s) that they support.  The "default" functions for a
     860             :  *      particular indexed attribute are those with both types equal to
     861             :  *      the index opclass' opcintype (note that this is subtly different
     862             :  *      from the indexed attribute's own type: it may be a binary-compatible
     863             :  *      type instead).  Only the default functions are stored in relcache
     864             :  *      entries --- access methods can use the syscache to look up non-default
     865             :  *      functions.
     866             :  *
     867             :  *      This routine returns the requested default procedure OID for a
     868             :  *      particular indexed attribute.
     869             :  * ----------------
     870             :  */
     871             : RegProcedure
     872     1898720 : index_getprocid(Relation irel,
     873             :                 AttrNumber attnum,
     874             :                 uint16 procnum)
     875             : {
     876             :     RegProcedure *loc;
     877             :     int         nproc;
     878             :     int         procindex;
     879             : 
     880     1898720 :     nproc = irel->rd_indam->amsupport;
     881             : 
     882             :     Assert(procnum > 0 && procnum <= (uint16) nproc);
     883             : 
     884     1898720 :     procindex = (nproc * (attnum - 1)) + (procnum - 1);
     885             : 
     886     1898720 :     loc = irel->rd_support;
     887             : 
     888             :     Assert(loc != NULL);
     889             : 
     890     1898720 :     return loc[procindex];
     891             : }
     892             : 
     893             : /* ----------------
     894             :  *      index_getprocinfo
     895             :  *
     896             :  *      This routine allows index AMs to keep fmgr lookup info for
     897             :  *      support procs in the relcache.  As above, only the "default"
     898             :  *      functions for any particular indexed attribute are cached.
     899             :  *
     900             :  * Note: the return value points into cached data that will be lost during
     901             :  * any relcache rebuild!  Therefore, either use the callinfo right away,
     902             :  * or save it only after having acquired some type of lock on the index rel.
     903             :  * ----------------
     904             :  */
     905             : FmgrInfo *
     906    45754700 : index_getprocinfo(Relation irel,
     907             :                   AttrNumber attnum,
     908             :                   uint16 procnum)
     909             : {
     910             :     FmgrInfo   *locinfo;
     911             :     int         nproc;
     912             :     int         optsproc;
     913             :     int         procindex;
     914             : 
     915    45754700 :     nproc = irel->rd_indam->amsupport;
     916    45754700 :     optsproc = irel->rd_indam->amoptsprocnum;
     917             : 
     918             :     Assert(procnum > 0 && procnum <= (uint16) nproc);
     919             : 
     920    45754700 :     procindex = (nproc * (attnum - 1)) + (procnum - 1);
     921             : 
     922    45754700 :     locinfo = irel->rd_supportinfo;
     923             : 
     924             :     Assert(locinfo != NULL);
     925             : 
     926    45754700 :     locinfo += procindex;
     927             : 
     928             :     /* Initialize the lookup info if first time through */
     929    45754700 :     if (locinfo->fn_oid == InvalidOid)
     930             :     {
     931     1190222 :         RegProcedure *loc = irel->rd_support;
     932             :         RegProcedure procId;
     933             : 
     934             :         Assert(loc != NULL);
     935             : 
     936     1190222 :         procId = loc[procindex];
     937             : 
     938             :         /*
     939             :          * Complain if function was not found during IndexSupportInitialize.
     940             :          * This should not happen unless the system tables contain bogus
     941             :          * entries for the index opclass.  (If an AM wants to allow a support
     942             :          * function to be optional, it can use index_getprocid.)
     943             :          */
     944     1190222 :         if (!RegProcedureIsValid(procId))
     945           0 :             elog(ERROR, "missing support function %d for attribute %d of index \"%s\"",
     946             :                  procnum, attnum, RelationGetRelationName(irel));
     947             : 
     948     1190222 :         fmgr_info_cxt(procId, locinfo, irel->rd_indexcxt);
     949             : 
     950     1190222 :         if (procnum != optsproc)
     951             :         {
     952             :             /* Initialize locinfo->fn_expr with opclass options Const */
     953     1188418 :             bytea     **attoptions = RelationGetIndexAttOptions(irel, false);
     954     1188418 :             MemoryContext oldcxt = MemoryContextSwitchTo(irel->rd_indexcxt);
     955             : 
     956     1188418 :             set_fn_opclass_options(locinfo, attoptions[attnum - 1]);
     957             : 
     958     1188418 :             MemoryContextSwitchTo(oldcxt);
     959             :         }
     960             :     }
     961             : 
     962    45754700 :     return locinfo;
     963             : }
     964             : 
     965             : /* ----------------
     966             :  *      index_store_float8_orderby_distances
     967             :  *
     968             :  *      Convert AM distance function's results (that can be inexact)
     969             :  *      to ORDER BY types and save them into xs_orderbyvals/xs_orderbynulls
     970             :  *      for a possible recheck.
     971             :  * ----------------
     972             :  */
     973             : void
     974      364600 : index_store_float8_orderby_distances(IndexScanDesc scan, Oid *orderByTypes,
     975             :                                      IndexOrderByDistance *distances,
     976             :                                      bool recheckOrderBy)
     977             : {
     978             :     int         i;
     979             : 
     980             :     Assert(distances || !recheckOrderBy);
     981             : 
     982      364600 :     scan->xs_recheckorderby = recheckOrderBy;
     983             : 
     984      729218 :     for (i = 0; i < scan->numberOfOrderBys; i++)
     985             :     {
     986      364618 :         if (orderByTypes[i] == FLOAT8OID)
     987             :         {
     988             : #ifndef USE_FLOAT8_BYVAL
     989             :             /* must free any old value to avoid memory leakage */
     990             :             if (!scan->xs_orderbynulls[i])
     991             :                 pfree(DatumGetPointer(scan->xs_orderbyvals[i]));
     992             : #endif
     993      364488 :             if (distances && !distances[i].isnull)
     994             :             {
     995      364428 :                 scan->xs_orderbyvals[i] = Float8GetDatum(distances[i].value);
     996      364428 :                 scan->xs_orderbynulls[i] = false;
     997             :             }
     998             :             else
     999             :             {
    1000          60 :                 scan->xs_orderbyvals[i] = (Datum) 0;
    1001          60 :                 scan->xs_orderbynulls[i] = true;
    1002             :             }
    1003             :         }
    1004         130 :         else if (orderByTypes[i] == FLOAT4OID)
    1005             :         {
    1006             :             /* convert distance function's result to ORDER BY type */
    1007          70 :             if (distances && !distances[i].isnull)
    1008             :             {
    1009          70 :                 scan->xs_orderbyvals[i] = Float4GetDatum((float4) distances[i].value);
    1010          70 :                 scan->xs_orderbynulls[i] = false;
    1011             :             }
    1012             :             else
    1013             :             {
    1014           0 :                 scan->xs_orderbyvals[i] = (Datum) 0;
    1015           0 :                 scan->xs_orderbynulls[i] = true;
    1016             :             }
    1017             :         }
    1018             :         else
    1019             :         {
    1020             :             /*
    1021             :              * If the ordering operator's return value is anything else, we
    1022             :              * don't know how to convert the float8 bound calculated by the
    1023             :              * distance function to that.  The executor won't actually need
    1024             :              * the order by values we return here, if there are no lossy
    1025             :              * results, so only insist on converting if the *recheck flag is
    1026             :              * set.
    1027             :              */
    1028          60 :             if (scan->xs_recheckorderby)
    1029           0 :                 elog(ERROR, "ORDER BY operator must return float8 or float4 if the distance function is lossy");
    1030          60 :             scan->xs_orderbynulls[i] = true;
    1031             :         }
    1032             :     }
    1033      364600 : }
    1034             : 
    1035             : /* ----------------
    1036             :  *      index_opclass_options
    1037             :  *
    1038             :  *      Parse opclass-specific options for index column.
    1039             :  * ----------------
    1040             :  */
    1041             : bytea *
    1042      994120 : index_opclass_options(Relation indrel, AttrNumber attnum, Datum attoptions,
    1043             :                       bool validate)
    1044             : {
    1045      994120 :     int         amoptsprocnum = indrel->rd_indam->amoptsprocnum;
    1046      994120 :     Oid         procid = InvalidOid;
    1047             :     FmgrInfo   *procinfo;
    1048             :     local_relopts relopts;
    1049             : 
    1050             :     /* fetch options support procedure if specified */
    1051      994120 :     if (amoptsprocnum != 0)
    1052      994060 :         procid = index_getprocid(indrel, attnum, amoptsprocnum);
    1053             : 
    1054      994120 :     if (!OidIsValid(procid))
    1055             :     {
    1056             :         Oid         opclass;
    1057             :         Datum       indclassDatum;
    1058             :         oidvector  *indclass;
    1059             : 
    1060      991582 :         if (!DatumGetPointer(attoptions))
    1061      991576 :             return NULL;        /* ok, no options, no procedure */
    1062             : 
    1063             :         /*
    1064             :          * Report an error if the opclass's options-parsing procedure does not
    1065             :          * exist but the opclass options are specified.
    1066             :          */
    1067           6 :         indclassDatum = SysCacheGetAttrNotNull(INDEXRELID, indrel->rd_indextuple,
    1068             :                                                Anum_pg_index_indclass);
    1069           6 :         indclass = (oidvector *) DatumGetPointer(indclassDatum);
    1070           6 :         opclass = indclass->values[attnum - 1];
    1071             : 
    1072           6 :         ereport(ERROR,
    1073             :                 (errcode(ERRCODE_INVALID_PARAMETER_VALUE),
    1074             :                  errmsg("operator class %s has no options",
    1075             :                         generate_opclass_name(opclass))));
    1076             :     }
    1077             : 
    1078        2538 :     init_local_reloptions(&relopts, 0);
    1079             : 
    1080        2538 :     procinfo = index_getprocinfo(indrel, attnum, amoptsprocnum);
    1081             : 
    1082        2538 :     (void) FunctionCall1(procinfo, PointerGetDatum(&relopts));
    1083             : 
    1084        2538 :     return build_local_reloptions(&relopts, attoptions, validate);
    1085             : }

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