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relcache.h File Reference
#include "access/tupdesc.h"
#include "common/relpath.h"
#include "nodes/bitmapset.h"
Include dependency graph for relcache.h:
This graph shows which files directly or indirectly include this file:

Go to the source code of this file.

Macros

#define RELCACHE_INIT_FILENAME   "pg_internal.init"
 
#define AssertPendingSyncs_RelationCache()   do {} while (0)
 

Typedefs

typedef struct RelationDataRelation
 
typedef RelationRelationPtr
 
typedef enum IndexAttrBitmapKind IndexAttrBitmapKind
 

Enumerations

enum  IndexAttrBitmapKind {
  INDEX_ATTR_BITMAP_KEY , INDEX_ATTR_BITMAP_PRIMARY_KEY , INDEX_ATTR_BITMAP_IDENTITY_KEY , INDEX_ATTR_BITMAP_HOT_BLOCKING ,
  INDEX_ATTR_BITMAP_SUMMARIZED
}
 

Functions

static void AssertCouldGetRelation (void)
 
Relation RelationIdGetRelation (Oid relationId)
 
charRelationGetQualifiedRelationName (Relation rel)
 
void RelationClose (Relation relation)
 
ListRelationGetFKeyList (Relation relation)
 
ListRelationGetIndexList (Relation relation)
 
ListRelationGetStatExtList (Relation relation)
 
Oid RelationGetPrimaryKeyIndex (Relation relation, bool deferrable_ok)
 
Oid RelationGetReplicaIndex (Relation relation)
 
ListRelationGetIndexExpressions (Relation relation)
 
ListRelationGetDummyIndexExpressions (Relation relation)
 
ListRelationGetIndexPredicate (Relation relation)
 
bytea ** RelationGetIndexAttOptions (Relation relation, bool copy)
 
BitmapsetRelationGetIndexAttrBitmap (Relation relation, IndexAttrBitmapKind attrKind)
 
BitmapsetRelationGetIdentityKeyBitmap (Relation relation)
 
void RelationGetExclusionInfo (Relation indexRelation, Oid **operators, Oid **procs, uint16 **strategies)
 
void RelationInitIndexAccessInfo (Relation relation)
 
void RelationBuildPublicationDesc (Relation relation, struct PublicationDesc *pubdesc)
 
void RelationInitTableAccessMethod (Relation relation)
 
int errtable (Relation rel)
 
int errtablecol (Relation rel, int attnum)
 
int errtablecolname (Relation rel, const char *colname)
 
int errtableconstraint (Relation rel, const char *conname)
 
void RelationCacheInitialize (void)
 
void RelationCacheInitializePhase2 (void)
 
void RelationCacheInitializePhase3 (void)
 
Relation RelationBuildLocalRelation (const char *relname, Oid relnamespace, TupleDesc tupDesc, Oid relid, Oid accessmtd, RelFileNumber relfilenumber, Oid reltablespace, bool shared_relation, bool mapped_relation, char relpersistence, char relkind)
 
void RelationSetNewRelfilenumber (Relation relation, char persistence)
 
void RelationAssumeNewRelfilelocator (Relation relation)
 
void RelationForgetRelation (Oid rid)
 
void RelationCacheInvalidateEntry (Oid relationId)
 
void RelationCacheInvalidate (bool debug_discard)
 
void AtEOXact_RelationCache (bool isCommit)
 
void AtEOSubXact_RelationCache (bool isCommit, SubTransactionId mySubid, SubTransactionId parentSubid)
 
bool RelationIdIsInInitFile (Oid relationId)
 
void RelationCacheInitFilePreInvalidate (void)
 
void RelationCacheInitFilePostInvalidate (void)
 
void RelationCacheInitFileRemove (void)
 

Variables

PGDLLIMPORT bool criticalRelcachesBuilt
 
PGDLLIMPORT bool criticalSharedRelcachesBuilt
 

Macro Definition Documentation

◆ AssertPendingSyncs_RelationCache

#define AssertPendingSyncs_RelationCache ( )    do {} while (0)

Definition at line 144 of file relcache.h.

◆ RELCACHE_INIT_FILENAME

#define RELCACHE_INIT_FILENAME   "pg_internal.init"

Definition at line 25 of file relcache.h.

Typedef Documentation

◆ IndexAttrBitmapKind

◆ Relation

Definition at line 27 of file relcache.h.

◆ RelationPtr

Definition at line 35 of file relcache.h.

Enumeration Type Documentation

◆ IndexAttrBitmapKind

Enumerator
INDEX_ATTR_BITMAP_KEY 
INDEX_ATTR_BITMAP_PRIMARY_KEY 
INDEX_ATTR_BITMAP_IDENTITY_KEY 
INDEX_ATTR_BITMAP_HOT_BLOCKING 
INDEX_ATTR_BITMAP_SUMMARIZED 

Definition at line 68 of file relcache.h.

69{
IndexAttrBitmapKind
Definition relcache.h:69
@ INDEX_ATTR_BITMAP_KEY
Definition relcache.h:70
@ INDEX_ATTR_BITMAP_HOT_BLOCKING
Definition relcache.h:73
@ INDEX_ATTR_BITMAP_PRIMARY_KEY
Definition relcache.h:71
@ INDEX_ATTR_BITMAP_SUMMARIZED
Definition relcache.h:74
@ INDEX_ATTR_BITMAP_IDENTITY_KEY
Definition relcache.h:72

Function Documentation

◆ AssertCouldGetRelation()

◆ AtEOSubXact_RelationCache()

void AtEOSubXact_RelationCache ( bool  isCommit,
SubTransactionId  mySubid,
SubTransactionId  parentSubid 
)
extern

Definition at line 3380 of file relcache.c.

3382{
3383 HASH_SEQ_STATUS status;
3385 int i;
3386
3387 /*
3388 * Forget in_progress_list. This is relevant when we're aborting due to
3389 * an error during RelationBuildDesc(). We don't commit subtransactions
3390 * during RelationBuildDesc().
3391 */
3394
3395 /*
3396 * Unless the eoxact_list[] overflowed, we only need to examine the rels
3397 * listed in it. Otherwise fall back on a hash_seq_search scan. Same
3398 * logic as in AtEOXact_RelationCache.
3399 */
3401 {
3403 while ((idhentry = (RelIdCacheEnt *) hash_seq_search(&status)) != NULL)
3404 {
3407 }
3408 }
3409 else
3410 {
3411 for (i = 0; i < eoxact_list_len; i++)
3412 {
3414 &eoxact_list[i],
3415 HASH_FIND,
3416 NULL);
3417 if (idhentry != NULL)
3420 }
3421 }
3422
3423 /* Don't reset the list; we still need more cleanup later */
3424}
#define Assert(condition)
Definition c.h:999
void * hash_search(HTAB *hashp, const void *keyPtr, HASHACTION action, bool *foundPtr)
Definition dynahash.c:889
void * hash_seq_search(HASH_SEQ_STATUS *status)
Definition dynahash.c:1352
void hash_seq_init(HASH_SEQ_STATUS *status, HTAB *hashp)
Definition dynahash.c:1317
@ HASH_FIND
Definition hsearch.h:108
int i
Definition isn.c:77
static int fb(int x)
static Oid eoxact_list[MAX_EOXACT_LIST]
Definition relcache.c:189
static int in_progress_list_len
Definition relcache.c:175
static void AtEOSubXact_cleanup(Relation relation, bool isCommit, SubTransactionId mySubid, SubTransactionId parentSubid)
Definition relcache.c:3435
static int eoxact_list_len
Definition relcache.c:190
static bool eoxact_list_overflowed
Definition relcache.c:191
static HTAB * RelationIdCache
Definition relcache.c:138

References Assert, AtEOSubXact_cleanup(), eoxact_list, eoxact_list_len, eoxact_list_overflowed, fb(), HASH_FIND, hash_search(), hash_seq_init(), hash_seq_search(), i, in_progress_list_len, and RelationIdCache.

Referenced by AbortSubTransaction(), and CommitSubTransaction().

◆ AtEOXact_RelationCache()

void AtEOXact_RelationCache ( bool  isCommit)
extern

Definition at line 3228 of file relcache.c.

3229{
3230 HASH_SEQ_STATUS status;
3232 int i;
3233
3234 /*
3235 * Forget in_progress_list. This is relevant when we're aborting due to
3236 * an error during RelationBuildDesc().
3237 */
3240
3241 /*
3242 * Unless the eoxact_list[] overflowed, we only need to examine the rels
3243 * listed in it. Otherwise fall back on a hash_seq_search scan.
3244 *
3245 * For simplicity, eoxact_list[] entries are not deleted till end of
3246 * top-level transaction, even though we could remove them at
3247 * subtransaction end in some cases, or remove relations from the list if
3248 * they are cleared for other reasons. Therefore we should expect the
3249 * case that list entries are not found in the hashtable; if not, there's
3250 * nothing to do for them.
3251 */
3253 {
3255 while ((idhentry = (RelIdCacheEnt *) hash_seq_search(&status)) != NULL)
3256 {
3258 }
3259 }
3260 else
3261 {
3262 for (i = 0; i < eoxact_list_len; i++)
3263 {
3265 &eoxact_list[i],
3266 HASH_FIND,
3267 NULL);
3268 if (idhentry != NULL)
3270 }
3271 }
3272
3274 {
3276 for (i = 0; i < NextEOXactTupleDescNum; i++)
3280 }
3281
3282 /* Now we're out of the transaction and can clear the lists */
3283 eoxact_list_len = 0;
3284 eoxact_list_overflowed = false;
3287}
void pfree(void *pointer)
Definition mcxt.c:1619
static int NextEOXactTupleDescNum
Definition relcache.c:207
static int EOXactTupleDescArrayLen
Definition relcache.c:208
static void AtEOXact_cleanup(Relation relation, bool isCommit)
Definition relcache.c:3298
static TupleDesc * EOXactTupleDescArray
Definition relcache.c:206
void FreeTupleDesc(TupleDesc tupdesc)
Definition tupdesc.c:569

References Assert, AtEOXact_cleanup(), eoxact_list, eoxact_list_len, eoxact_list_overflowed, EOXactTupleDescArray, EOXactTupleDescArrayLen, fb(), FreeTupleDesc(), HASH_FIND, hash_search(), hash_seq_init(), hash_seq_search(), i, in_progress_list_len, NextEOXactTupleDescNum, pfree(), and RelationIdCache.

Referenced by AbortTransaction(), CommitTransaction(), and PrepareTransaction().

◆ errtable()

int errtable ( Relation  rel)
extern

Definition at line 6082 of file relcache.c.

6083{
6087
6088 return 0; /* return value does not matter */
6089}
int err_generic_string(int field, const char *str)
char * get_namespace_name(Oid nspid)
Definition lsyscache.c:3674
#define PG_DIAG_SCHEMA_NAME
#define PG_DIAG_TABLE_NAME
#define RelationGetRelationName(relation)
Definition rel.h:550
#define RelationGetNamespace(relation)
Definition rel.h:557

References err_generic_string(), get_namespace_name(), PG_DIAG_SCHEMA_NAME, PG_DIAG_TABLE_NAME, RelationGetNamespace, and RelationGetRelationName.

Referenced by ATPrepChangePersistence(), ATRewriteTable(), BuildRelationExtStatistics(), check_default_partition_contents(), errtablecolname(), errtableconstraint(), ExecFindPartition(), ExecPartitionCheckEmitError(), and SplitPartitionMoveRows().

◆ errtablecol()

int errtablecol ( Relation  rel,
int  attnum 
)
extern

Definition at line 6099 of file relcache.c.

6100{
6101 TupleDesc reldesc = RelationGetDescr(rel);
6102 const char *colname;
6103
6104 /* Use reldesc if it's a user attribute, else consult the catalogs */
6105 if (attnum > 0 && attnum <= reldesc->natts)
6106 colname = NameStr(TupleDescAttr(reldesc, attnum - 1)->attname);
6107 else
6108 colname = get_attname(RelationGetRelid(rel), attnum, false);
6109
6110 return errtablecolname(rel, colname);
6111}
#define NameStr(name)
Definition c.h:891
char * get_attname(Oid relid, AttrNumber attnum, bool missing_ok)
Definition lsyscache.c:1045
NameData attname
int16 attnum
#define RelationGetRelid(relation)
Definition rel.h:516
#define RelationGetDescr(relation)
Definition rel.h:542
int errtablecolname(Relation rel, const char *colname)
Definition relcache.c:6123
static FormData_pg_attribute * TupleDescAttr(TupleDesc tupdesc, int i)
Definition tupdesc.h:178

References attname, attnum, errtablecolname(), fb(), get_attname(), NameStr, RelationGetDescr, RelationGetRelid, and TupleDescAttr().

Referenced by ATRewriteTable(), ReportNotNullViolationError(), validateDomainCheckConstraint(), and validateDomainNotNullConstraint().

◆ errtablecolname()

int errtablecolname ( Relation  rel,
const char colname 
)
extern

Definition at line 6123 of file relcache.c.

6124{
6125 errtable(rel);
6127
6128 return 0; /* return value does not matter */
6129}
#define PG_DIAG_COLUMN_NAME
int errtable(Relation rel)
Definition relcache.c:6082

References err_generic_string(), errtable(), and PG_DIAG_COLUMN_NAME.

Referenced by errtablecol().

◆ errtableconstraint()

◆ RelationAssumeNewRelfilelocator()

void RelationAssumeNewRelfilelocator ( Relation  relation)
extern

Definition at line 3980 of file relcache.c.

3981{
3985
3986 /* Flag relation as needing eoxact cleanup (to clear these fields) */
3987 EOXactListAdd(relation);
3988}
#define InvalidSubTransactionId
Definition c.h:798
#define EOXactListAdd(rel)
Definition relcache.c:193
SubTransactionId rd_firstRelfilelocatorSubid
Definition rel.h:106
SubTransactionId rd_newRelfilelocatorSubid
Definition rel.h:104
SubTransactionId GetCurrentSubTransactionId(void)
Definition xact.c:793

References EOXactListAdd, GetCurrentSubTransactionId(), InvalidSubTransactionId, RelationData::rd_firstRelfilelocatorSubid, and RelationData::rd_newRelfilelocatorSubid.

Referenced by ATExecSetTableSpace(), reindex_index(), RelationSetNewRelfilenumber(), and swap_relation_files().

◆ RelationBuildLocalRelation()

Relation RelationBuildLocalRelation ( const char relname,
Oid  relnamespace,
TupleDesc  tupDesc,
Oid  relid,
Oid  accessmtd,
RelFileNumber  relfilenumber,
Oid  reltablespace,
bool  shared_relation,
bool  mapped_relation,
char  relpersistence,
char  relkind 
)
extern

Definition at line 3517 of file relcache.c.

3528{
3529 Relation rel;
3531 int natts = tupDesc->natts;
3532 int i;
3533 bool has_not_null;
3534 bool nailit;
3535
3536 Assert(natts >= 0);
3537
3538 /*
3539 * check for creation of a rel that must be nailed in cache.
3540 *
3541 * XXX this list had better match the relations specially handled in
3542 * RelationCacheInitializePhase2/3.
3543 */
3544 switch (relid)
3545 {
3546 case DatabaseRelationId:
3547 case AuthIdRelationId:
3548 case AuthMemRelationId:
3549 case RelationRelationId:
3552 case TypeRelationId:
3553 nailit = true;
3554 break;
3555 default:
3556 nailit = false;
3557 break;
3558 }
3559
3560 /*
3561 * check that hardwired list of shared rels matches what's in the
3562 * bootstrap .bki file. If you get a failure here during initdb, you
3563 * probably need to fix IsSharedRelation() to match whatever you've done
3564 * to the set of shared relations.
3565 */
3566 if (shared_relation != IsSharedRelation(relid))
3567 elog(ERROR, "shared_relation flag for \"%s\" does not match IsSharedRelation(%u)",
3568 relname, relid);
3569
3570 /* Shared relations had better be mapped, too */
3572
3573 /*
3574 * switch to the cache context to create the relcache entry.
3575 */
3576 if (!CacheMemoryContext)
3578
3580
3581 /*
3582 * allocate a new relation descriptor and fill in basic state fields.
3583 */
3585
3586 /* make sure relation is marked as having no open file yet */
3587 rel->rd_smgr = NULL;
3588
3589 /* mark it nailed if appropriate */
3590 rel->rd_isnailed = nailit;
3591
3592 rel->rd_refcnt = nailit ? 1 : 0;
3593
3594 /* it's being created in this transaction */
3599
3600 /*
3601 * create a new tuple descriptor from the one passed in. We do this
3602 * partly to copy it into the cache context, and partly because the new
3603 * relation can't have any defaults or constraints yet; they have to be
3604 * added in later steps, because they require additions to multiple system
3605 * catalogs. We can copy attnotnull constraints here, however.
3606 */
3607 rel->rd_att = CreateTupleDescCopy(tupDesc);
3608 rel->rd_att->tdrefcount = 1; /* mark as refcounted */
3609 has_not_null = false;
3610 for (i = 0; i < natts; i++)
3611 {
3614
3615 datt->attidentity = satt->attidentity;
3616 datt->attgenerated = satt->attgenerated;
3617 datt->attnotnull = satt->attnotnull;
3618 has_not_null |= satt->attnotnull;
3620
3621 if (satt->attnotnull)
3622 {
3625
3626 dcatt->attnullability = scatt->attnullability;
3627 }
3628 }
3629
3630 if (has_not_null)
3631 {
3633
3634 constr->has_not_null = true;
3635 rel->rd_att->constr = constr;
3636 }
3637
3638 /*
3639 * initialize relation tuple form (caller may add/override data later)
3640 */
3642
3643 namestrcpy(&rel->rd_rel->relname, relname);
3644 rel->rd_rel->relnamespace = relnamespace;
3645
3646 rel->rd_rel->relkind = relkind;
3647 rel->rd_rel->relnatts = natts;
3648 rel->rd_rel->reltype = InvalidOid;
3649 /* needed when bootstrapping: */
3650 rel->rd_rel->relowner = BOOTSTRAP_SUPERUSERID;
3651
3652 /* set up persistence and relcache fields dependent on it */
3653 rel->rd_rel->relpersistence = relpersistence;
3654 switch (relpersistence)
3655 {
3659 rel->rd_islocaltemp = false;
3660 break;
3662 Assert(isTempOrTempToastNamespace(relnamespace));
3664 rel->rd_islocaltemp = true;
3665 break;
3666 default:
3667 elog(ERROR, "invalid relpersistence: %c", relpersistence);
3668 break;
3669 }
3670
3671 /* if it's a materialized view, it's not populated initially */
3672 if (relkind == RELKIND_MATVIEW)
3673 rel->rd_rel->relispopulated = false;
3674 else
3675 rel->rd_rel->relispopulated = true;
3676
3677 /* set replica identity -- system catalogs and non-tables don't have one */
3678 if (!IsCatalogNamespace(relnamespace) &&
3679 (relkind == RELKIND_RELATION ||
3680 relkind == RELKIND_MATVIEW ||
3681 relkind == RELKIND_PARTITIONED_TABLE))
3682 rel->rd_rel->relreplident = REPLICA_IDENTITY_DEFAULT;
3683 else
3684 rel->rd_rel->relreplident = REPLICA_IDENTITY_NOTHING;
3685
3686 /*
3687 * Insert relation physical and logical identifiers (OIDs) into the right
3688 * places. For a mapped relation, we set relfilenumber to zero and rely
3689 * on RelationInitPhysicalAddr to consult the map.
3690 */
3691 rel->rd_rel->relisshared = shared_relation;
3692
3693 RelationGetRelid(rel) = relid;
3694
3695 for (i = 0; i < natts; i++)
3696 TupleDescAttr(rel->rd_att, i)->attrelid = relid;
3697
3699
3700 rel->rd_rel->reltablespace = reltablespace;
3701
3702 if (mapped_relation)
3703 {
3704 rel->rd_rel->relfilenode = InvalidRelFileNumber;
3705 /* Add it to the active mapping information */
3706 RelationMapUpdateMap(relid, relfilenumber, shared_relation, true);
3707 }
3708 else
3709 rel->rd_rel->relfilenode = relfilenumber;
3710
3711 RelationInitLockInfo(rel); /* see lmgr.c */
3712
3714
3715 rel->rd_rel->relam = accessmtd;
3716
3717 /*
3718 * RelationInitTableAccessMethod will do syscache lookups, so we mustn't
3719 * run it in CacheMemoryContext. Fortunately, the remaining steps don't
3720 * require a long-lived current context.
3721 */
3723
3724 if (RELKIND_HAS_TABLE_AM(relkind) || relkind == RELKIND_SEQUENCE)
3726
3727 /*
3728 * Leave index access method uninitialized, because the pg_index row has
3729 * not been inserted at this stage of index creation yet. The cache
3730 * invalidation after pg_index row has been inserted will initialize it.
3731 */
3732
3733 /*
3734 * Okay to insert into the relcache hash table.
3735 *
3736 * Ordinarily, there should certainly not be an existing hash entry for
3737 * the same OID; but during bootstrap, when we create a "real" relcache
3738 * entry for one of the bootstrap relations, we'll be overwriting the
3739 * phony one created with formrdesc. So allow that to happen for nailed
3740 * rels.
3741 */
3743
3744 /*
3745 * Flag relation as needing eoxact cleanup (to clear rd_createSubid). We
3746 * can't do this before storing relid in it.
3747 */
3748 EOXactListAdd(rel);
3749
3750 /* It's fully valid */
3751 rel->rd_isvalid = true;
3752
3753 /*
3754 * Caller expects us to pin the returned entry.
3755 */
3757
3758 return rel;
3759}
bool IsCatalogNamespace(Oid namespaceId)
Definition catalog.c:243
bool IsSharedRelation(Oid relationId)
Definition catalog.c:304
void CreateCacheMemoryContext(void)
Definition catcache.c:726
#define ERROR
Definition elog.h:40
#define elog(elevel,...)
Definition elog.h:228
#define palloc0_object(type)
Definition fe_memutils.h:90
void RelationInitLockInfo(Relation relation)
Definition lmgr.c:70
void * palloc0(Size size)
Definition mcxt.c:1420
MemoryContext CacheMemoryContext
Definition mcxt.c:170
void namestrcpy(Name name, const char *str)
Definition name.c:233
bool isTempOrTempToastNamespace(Oid namespaceId)
Definition namespace.c:3745
static MemoryContext MemoryContextSwitchTo(MemoryContext context)
Definition palloc.h:138
FormData_pg_attribute * Form_pg_attribute
NameData relname
Definition pg_class.h:40
FormData_pg_class * Form_pg_class
Definition pg_class.h:160
#define CLASS_TUPLE_SIZE
Definition pg_class.h:152
#define InvalidOid
#define INVALID_PROC_NUMBER
Definition procnumber.h:26
#define ProcNumberForTempRelations()
Definition procnumber.h:53
#define RelationCacheInsert(RELATION, replace_allowed)
Definition relcache.c:213
void RelationIncrementReferenceCount(Relation rel)
Definition relcache.c:2189
void RelationInitTableAccessMethod(Relation relation)
Definition relcache.c:1822
static void RelationInitPhysicalAddr(Relation relation)
Definition relcache.c:1337
void RelationMapUpdateMap(Oid relationId, RelFileNumber fileNumber, bool shared, bool immediate)
Definition relmapper.c:326
#define InvalidRelFileNumber
Definition relpath.h:26
ProcNumber rd_backend
Definition rel.h:60
int rd_refcnt
Definition rel.h:59
bool rd_isvalid
Definition rel.h:63
bool rd_islocaltemp
Definition rel.h:61
TupleDesc rd_att
Definition rel.h:112
bool rd_isnailed
Definition rel.h:62
SMgrRelation rd_smgr
Definition rel.h:58
SubTransactionId rd_createSubid
Definition rel.h:103
SubTransactionId rd_droppedSubid
Definition rel.h:109
Form_pg_class rd_rel
Definition rel.h:111
bool has_not_null
Definition tupdesc.h:45
TupleConstr * constr
Definition tupdesc.h:159
void TupleDescFinalize(TupleDesc tupdesc)
Definition tupdesc.c:511
TupleDesc CreateTupleDescCopy(TupleDesc tupdesc)
Definition tupdesc.c:242
void populate_compact_attribute(TupleDesc tupdesc, int attnum)
Definition tupdesc.c:100
static CompactAttribute * TupleDescCompactAttr(TupleDesc tupdesc, int i)
Definition tupdesc.h:195

References Assert, CacheMemoryContext, CLASS_TUPLE_SIZE, TupleDescData::constr, CreateCacheMemoryContext(), CreateTupleDescCopy(), elog, EOXactListAdd, ERROR, fb(), GetCurrentSubTransactionId(), TupleConstr::has_not_null, i, INVALID_PROC_NUMBER, InvalidOid, InvalidRelFileNumber, InvalidSubTransactionId, IsCatalogNamespace(), IsSharedRelation(), isTempOrTempToastNamespace(), MemoryContextSwitchTo(), namestrcpy(), TupleDescData::natts, palloc0(), palloc0_object, populate_compact_attribute(), ProcNumberForTempRelations, RelationData::rd_att, RelationData::rd_backend, RelationData::rd_createSubid, RelationData::rd_droppedSubid, RelationData::rd_firstRelfilelocatorSubid, RelationData::rd_islocaltemp, RelationData::rd_isnailed, RelationData::rd_isvalid, RelationData::rd_newRelfilelocatorSubid, RelationData::rd_refcnt, RelationData::rd_rel, RelationData::rd_smgr, RelationCacheInsert, RelationGetRelid, RelationIncrementReferenceCount(), RelationInitLockInfo(), RelationInitPhysicalAddr(), RelationInitTableAccessMethod(), RelationMapUpdateMap(), relname, TupleDescData::tdrefcount, TupleDescAttr(), TupleDescCompactAttr(), and TupleDescFinalize().

Referenced by heap_create().

◆ RelationBuildPublicationDesc()

void RelationBuildPublicationDesc ( Relation  relation,
struct PublicationDesc pubdesc 
)
extern

Definition at line 5804 of file relcache.c.

5805{
5806 List *puboids = NIL;
5809 ListCell *lc;
5811 Oid schemaid;
5812 List *ancestors = NIL;
5813 Oid relid = RelationGetRelid(relation);
5814
5815 /*
5816 * If not publishable, it publishes no actions. (pgoutput_change() will
5817 * ignore it.)
5818 */
5819 if (!is_publishable_relation(relation))
5820 {
5821 memset(pubdesc, 0, sizeof(PublicationDesc));
5822 pubdesc->rf_valid_for_update = true;
5823 pubdesc->rf_valid_for_delete = true;
5824 pubdesc->cols_valid_for_update = true;
5825 pubdesc->cols_valid_for_delete = true;
5826 pubdesc->gencols_valid_for_update = true;
5827 pubdesc->gencols_valid_for_delete = true;
5828 return;
5829 }
5830
5831 if (relation->rd_pubdesc)
5832 {
5833 memcpy(pubdesc, relation->rd_pubdesc, sizeof(PublicationDesc));
5834 return;
5835 }
5836
5837 memset(pubdesc, 0, sizeof(PublicationDesc));
5838 pubdesc->rf_valid_for_update = true;
5839 pubdesc->rf_valid_for_delete = true;
5840 pubdesc->cols_valid_for_update = true;
5841 pubdesc->cols_valid_for_delete = true;
5842 pubdesc->gencols_valid_for_update = true;
5843 pubdesc->gencols_valid_for_delete = true;
5844
5845 /* Fetch the publication membership info. */
5847 schemaid = RelationGetNamespace(relation);
5849
5850 if (relation->rd_rel->relispartition)
5851 {
5853
5854 /* Add publications that the ancestors are in too. */
5855 ancestors = get_partition_ancestors(relid);
5856 last_ancestor_relid = llast_oid(ancestors);
5857
5858 foreach(lc, ancestors)
5859 {
5861
5867 }
5868
5869 /*
5870 * Only the top-most ancestor can appear in the EXCEPT clause.
5871 * Therefore, for a partition, exclusion must be evaluated at the
5872 * top-most ancestor.
5873 */
5875 }
5876 else
5877 {
5878 /*
5879 * For a regular table or a root partitioned table, check exclusion on
5880 * table itself.
5881 */
5883 }
5884
5888 exceptpuboids));
5889 foreach(lc, puboids)
5890 {
5891 Oid pubid = lfirst_oid(lc);
5892 HeapTuple tup;
5895 bool invalid_gen_col;
5896
5898
5899 if (!HeapTupleIsValid(tup))
5900 elog(ERROR, "cache lookup failed for publication %u", pubid);
5901
5903
5904 pubdesc->pubactions.pubinsert |= pubform->pubinsert;
5905 pubdesc->pubactions.pubupdate |= pubform->pubupdate;
5906 pubdesc->pubactions.pubdelete |= pubform->pubdelete;
5907 pubdesc->pubactions.pubtruncate |= pubform->pubtruncate;
5908
5909 /*
5910 * Check if all columns referenced in the filter expression are part
5911 * of the REPLICA IDENTITY index or not.
5912 *
5913 * If the publication is FOR ALL TABLES then it means the table has no
5914 * row filters and we can skip the validation.
5915 */
5916 if (!pubform->puballtables &&
5917 (pubform->pubupdate || pubform->pubdelete) &&
5918 pub_rf_contains_invalid_column(pubid, relation, ancestors,
5919 pubform->pubviaroot))
5920 {
5921 if (pubform->pubupdate)
5922 pubdesc->rf_valid_for_update = false;
5923 if (pubform->pubdelete)
5924 pubdesc->rf_valid_for_delete = false;
5925 }
5926
5927 /*
5928 * Check if all columns are part of the REPLICA IDENTITY index or not.
5929 *
5930 * Check if all generated columns included in the REPLICA IDENTITY are
5931 * published.
5932 */
5933 if ((pubform->pubupdate || pubform->pubdelete) &&
5934 pub_contains_invalid_column(pubid, relation, ancestors,
5935 pubform->pubviaroot,
5936 pubform->pubgencols,
5939 {
5940 if (pubform->pubupdate)
5941 {
5942 pubdesc->cols_valid_for_update = !invalid_column_list;
5943 pubdesc->gencols_valid_for_update = !invalid_gen_col;
5944 }
5945
5946 if (pubform->pubdelete)
5947 {
5948 pubdesc->cols_valid_for_delete = !invalid_column_list;
5949 pubdesc->gencols_valid_for_delete = !invalid_gen_col;
5950 }
5951 }
5952
5954
5955 /*
5956 * If we know everything is replicated and the row filter is invalid
5957 * for update and delete, there is no point to check for other
5958 * publications.
5959 */
5960 if (pubdesc->pubactions.pubinsert && pubdesc->pubactions.pubupdate &&
5961 pubdesc->pubactions.pubdelete && pubdesc->pubactions.pubtruncate &&
5962 !pubdesc->rf_valid_for_update && !pubdesc->rf_valid_for_delete)
5963 break;
5964
5965 /*
5966 * If we know everything is replicated and the column list is invalid
5967 * for update and delete, there is no point to check for other
5968 * publications.
5969 */
5970 if (pubdesc->pubactions.pubinsert && pubdesc->pubactions.pubupdate &&
5971 pubdesc->pubactions.pubdelete && pubdesc->pubactions.pubtruncate &&
5972 !pubdesc->cols_valid_for_update && !pubdesc->cols_valid_for_delete)
5973 break;
5974
5975 /*
5976 * If we know everything is replicated and replica identity has an
5977 * unpublished generated column, there is no point to check for other
5978 * publications.
5979 */
5980 if (pubdesc->pubactions.pubinsert && pubdesc->pubactions.pubupdate &&
5981 pubdesc->pubactions.pubdelete && pubdesc->pubactions.pubtruncate &&
5982 !pubdesc->gencols_valid_for_update &&
5983 !pubdesc->gencols_valid_for_delete)
5984 break;
5985 }
5986
5987 if (relation->rd_pubdesc)
5988 {
5989 pfree(relation->rd_pubdesc);
5990 relation->rd_pubdesc = NULL;
5991 }
5992
5993 /* Now save copy of the descriptor in the relcache entry. */
5996 memcpy(relation->rd_pubdesc, pubdesc, sizeof(PublicationDesc));
5998}
memcpy(sums, checksumBaseOffsets, sizeof(checksumBaseOffsets))
#define palloc_object(type)
Definition fe_memutils.h:89
#define HeapTupleIsValid(tuple)
Definition htup.h:78
static void * GETSTRUCT(const HeapTupleData *tuple)
List * list_concat_unique_oid(List *list1, const List *list2)
Definition list.c:1469
List * list_difference_oid(const List *list1, const List *list2)
Definition list.c:1313
Oid get_rel_namespace(Oid relid)
Definition lsyscache.c:2258
List * get_partition_ancestors(Oid relid)
Definition partition.c:134
#define NIL
Definition pg_list.h:68
#define llast_oid(l)
Definition pg_list.h:200
#define lfirst_oid(lc)
Definition pg_list.h:174
List * GetAllTablesPublications(void)
List * GetRelationIncludedPublications(Oid relid)
List * GetSchemaPublications(Oid schemaid)
List * GetRelationExcludedPublications(Oid relid)
bool is_publishable_relation(Relation rel)
END_CATALOG_STRUCT typedef FormData_pg_publication * Form_pg_publication
static Datum ObjectIdGetDatum(Oid X)
Definition postgres.h:252
unsigned int Oid
bool pub_contains_invalid_column(Oid pubid, Relation relation, List *ancestors, bool pubviaroot, char pubgencols_type, bool *invalid_column_list, bool *invalid_gen_col)
bool pub_rf_contains_invalid_column(Oid pubid, Relation relation, List *ancestors, bool pubviaroot)
Definition pg_list.h:54
PublicationDesc * rd_pubdesc
Definition rel.h:168
void ReleaseSysCache(HeapTuple tuple)
Definition syscache.c:265
HeapTuple SearchSysCache1(SysCacheIdentifier cacheId, Datum key1)
Definition syscache.c:221

References CacheMemoryContext, elog, ERROR, fb(), Form_pg_publication, get_partition_ancestors(), get_rel_namespace(), GetAllTablesPublications(), GetRelationExcludedPublications(), GetRelationIncludedPublications(), GetSchemaPublications(), GETSTRUCT(), HeapTupleIsValid, is_publishable_relation(), lfirst_oid, list_concat_unique_oid(), list_difference_oid(), llast_oid, memcpy(), MemoryContextSwitchTo(), NIL, ObjectIdGetDatum(), palloc_object, pfree(), pub_contains_invalid_column(), pub_rf_contains_invalid_column(), RelationData::rd_pubdesc, RelationData::rd_rel, RelationGetNamespace, RelationGetRelid, ReleaseSysCache(), and SearchSysCache1().

Referenced by CheckCmdReplicaIdentity().

◆ RelationCacheInitFilePostInvalidate()

void RelationCacheInitFilePostInvalidate ( void  )
extern

Definition at line 6920 of file relcache.c.

6921{
6923}
void LWLockRelease(LWLock *lock)
Definition lwlock.c:1767

References fb(), and LWLockRelease().

Referenced by AtEOXact_Inval(), AtInplace_Inval(), FinishPreparedTransaction(), and ProcessCommittedInvalidationMessages().

◆ RelationCacheInitFilePreInvalidate()

void RelationCacheInitFilePreInvalidate ( void  )
extern

Definition at line 6895 of file relcache.c.

6896{
6899
6900 if (DatabasePath)
6901 snprintf(localinitfname, sizeof(localinitfname), "%s/%s",
6903 snprintf(sharedinitfname, sizeof(sharedinitfname), "global/%s",
6905
6907
6908 /*
6909 * The files might not be there if no backend has been started since the
6910 * last removal. But complain about failures other than ENOENT with
6911 * ERROR. Fortunately, it's not too late to abort the transaction if we
6912 * can't get rid of the would-be-obsolete init file.
6913 */
6914 if (DatabasePath)
6917}
char * DatabasePath
Definition globals.c:106
bool LWLockAcquire(LWLock *lock, LWLockMode mode)
Definition lwlock.c:1150
@ LW_EXCLUSIVE
Definition lwlock.h:104
#define MAXPGPATH
#define snprintf
Definition port.h:261
static void unlink_initfile(const char *initfilename, int elevel)
Definition relcache.c:6992
#define RELCACHE_INIT_FILENAME
Definition relcache.h:25

References DatabasePath, ERROR, fb(), LW_EXCLUSIVE, LWLockAcquire(), MAXPGPATH, RELCACHE_INIT_FILENAME, snprintf, and unlink_initfile().

Referenced by AtEOXact_Inval(), FinishPreparedTransaction(), PreInplace_Inval(), and ProcessCommittedInvalidationMessages().

◆ RelationCacheInitFileRemove()

void RelationCacheInitFileRemove ( void  )
extern

Definition at line 6935 of file relcache.c.

6936{
6937 const char *tblspcdir = PG_TBLSPC_DIR;
6938 DIR *dir;
6939 struct dirent *de;
6940 char path[MAXPGPATH + sizeof(PG_TBLSPC_DIR) + sizeof(TABLESPACE_VERSION_DIRECTORY)];
6941
6942 snprintf(path, sizeof(path), "global/%s",
6944 unlink_initfile(path, LOG);
6945
6946 /* Scan everything in the default tablespace */
6948
6949 /* Scan the tablespace link directory to find non-default tablespaces */
6950 dir = AllocateDir(tblspcdir);
6951
6952 while ((de = ReadDirExtended(dir, tblspcdir, LOG)) != NULL)
6953 {
6954 if (strspn(de->d_name, "0123456789") == strlen(de->d_name))
6955 {
6956 /* Scan the tablespace dir for per-database dirs */
6957 snprintf(path, sizeof(path), "%s/%s/%s",
6960 }
6961 }
6962
6963 FreeDir(dir);
6964}
#define LOG
Definition elog.h:32
int FreeDir(DIR *dir)
Definition fd.c:3009
struct dirent * ReadDirExtended(DIR *dir, const char *dirname, int elevel)
Definition fd.c:2972
DIR * AllocateDir(const char *dirname)
Definition fd.c:2891
static void RelationCacheInitFileRemoveInDir(const char *tblspcpath)
Definition relcache.c:6968
#define PG_TBLSPC_DIR
Definition relpath.h:41
#define TABLESPACE_VERSION_DIRECTORY
Definition relpath.h:33
Definition dirent.c:26

References AllocateDir(), fb(), FreeDir(), LOG, MAXPGPATH, PG_TBLSPC_DIR, ReadDirExtended(), RelationCacheInitFileRemoveInDir(), RELCACHE_INIT_FILENAME, snprintf, TABLESPACE_VERSION_DIRECTORY, and unlink_initfile().

Referenced by StartupXLOG().

◆ RelationCacheInitialize()

void RelationCacheInitialize ( void  )
extern

Definition at line 4006 of file relcache.c.

4007{
4008 HASHCTL ctl;
4009 int allocsize;
4010
4011 /*
4012 * make sure cache memory context exists
4013 */
4014 if (!CacheMemoryContext)
4016
4017 /*
4018 * create hashtable that indexes the relcache
4019 */
4020 ctl.keysize = sizeof(Oid);
4021 ctl.entrysize = sizeof(RelIdCacheEnt);
4022 RelationIdCache = hash_create("Relcache by OID", INITRELCACHESIZE,
4024
4025 /*
4026 * reserve enough in_progress_list slots for many cases
4027 */
4028 allocsize = 4;
4031 allocsize * sizeof(*in_progress_list));
4032 in_progress_list_maxlen = allocsize;
4033
4034 /*
4035 * relation mapper needs to be initialized too
4036 */
4038}
HTAB * hash_create(const char *tabname, int64 nelem, const HASHCTL *info, int flags)
Definition dynahash.c:360
#define HASH_ELEM
Definition hsearch.h:90
#define HASH_BLOBS
Definition hsearch.h:92
void * MemoryContextAlloc(MemoryContext context, Size size)
Definition mcxt.c:1235
tree ctl
Definition radixtree.h:1838
static int in_progress_list_maxlen
Definition relcache.c:176
#define INITRELCACHESIZE
Definition relcache.c:4003
struct relidcacheent RelIdCacheEnt
static InProgressEnt * in_progress_list
Definition relcache.c:174
void RelationMapInitialize(void)
Definition relmapper.c:652

References CacheMemoryContext, CreateCacheMemoryContext(), ctl, HASH_BLOBS, hash_create(), HASH_ELEM, in_progress_list, in_progress_list_maxlen, INITRELCACHESIZE, MemoryContextAlloc(), RelationIdCache, and RelationMapInitialize().

Referenced by InitPostgres().

◆ RelationCacheInitializePhase2()

void RelationCacheInitializePhase2 ( void  )
extern

Definition at line 4052 of file relcache.c.

4053{
4055
4056 /*
4057 * relation mapper needs initialized too
4058 */
4060
4061 /*
4062 * In bootstrap mode, the shared catalogs aren't there yet anyway, so do
4063 * nothing.
4064 */
4066 return;
4067
4068 /*
4069 * switch to cache memory context
4070 */
4072
4073 /*
4074 * Try to load the shared relcache cache file. If unsuccessful, bootstrap
4075 * the cache with pre-made descriptors for the critical shared catalogs.
4076 */
4077 if (!load_relcache_init_file(true))
4078 {
4079 formrdesc("pg_database", DatabaseRelation_Rowtype_Id, true,
4081 formrdesc("pg_authid", AuthIdRelation_Rowtype_Id, true,
4083 formrdesc("pg_auth_members", AuthMemRelation_Rowtype_Id, true,
4085 formrdesc("pg_shseclabel", SharedSecLabelRelation_Rowtype_Id, true,
4087 formrdesc("pg_subscription", SubscriptionRelation_Rowtype_Id, true,
4089 formrdesc("pg_parameter_acl", ParameterAclRelation_Rowtype_Id, true,
4091
4092#define NUM_CRITICAL_SHARED_RELS 6 /* fix if you change list above */
4093 }
4094
4096}
#define IsBootstrapProcessingMode()
Definition miscadmin.h:486
static bool load_relcache_init_file(bool shared)
Definition relcache.c:6200
static const FormData_pg_attribute Desc_pg_shseclabel[Natts_pg_shseclabel]
Definition relcache.c:122
static void formrdesc(const char *relationName, Oid relationReltype, bool isshared, int natts, const FormData_pg_attribute *attrs)
Definition relcache.c:1887
static const FormData_pg_attribute Desc_pg_database[Natts_pg_database]
Definition relcache.c:118
static const FormData_pg_attribute Desc_pg_authid[Natts_pg_authid]
Definition relcache.c:119
static const FormData_pg_attribute Desc_pg_subscription[Natts_pg_subscription]
Definition relcache.c:123
static const FormData_pg_attribute Desc_pg_auth_members[Natts_pg_auth_members]
Definition relcache.c:120
static const FormData_pg_attribute Desc_pg_parameter_acl[Natts_pg_parameter_acl]
Definition relcache.c:124
void RelationMapInitializePhase2(void)
Definition relmapper.c:672

References CacheMemoryContext, Desc_pg_auth_members, Desc_pg_authid, Desc_pg_database, Desc_pg_parameter_acl, Desc_pg_shseclabel, Desc_pg_subscription, fb(), formrdesc(), IsBootstrapProcessingMode, load_relcache_init_file(), MemoryContextSwitchTo(), and RelationMapInitializePhase2().

Referenced by InitPostgres().

◆ RelationCacheInitializePhase3()

void RelationCacheInitializePhase3 ( void  )
extern

Definition at line 4113 of file relcache.c.

4114{
4115 HASH_SEQ_STATUS status;
4119
4120 /*
4121 * relation mapper needs initialized too
4122 */
4124
4125 /*
4126 * switch to cache memory context
4127 */
4129
4130 /*
4131 * Try to load the local relcache cache file. If unsuccessful, bootstrap
4132 * the cache with pre-made descriptors for the critical "nailed-in" system
4133 * catalogs.
4134 */
4137 {
4138 needNewCacheFile = true;
4139
4140 formrdesc("pg_class", RelationRelation_Rowtype_Id, false,
4142 formrdesc("pg_attribute", AttributeRelation_Rowtype_Id, false,
4144 formrdesc("pg_proc", ProcedureRelation_Rowtype_Id, false,
4146 formrdesc("pg_type", TypeRelation_Rowtype_Id, false,
4148
4149#define NUM_CRITICAL_LOCAL_RELS 4 /* fix if you change list above */
4150 }
4151
4153
4154 /* In bootstrap mode, the faked-up formrdesc info is all we'll have */
4156 return;
4157
4158 /*
4159 * If we didn't get the critical system indexes loaded into relcache, do
4160 * so now. These are critical because the catcache and/or opclass cache
4161 * depend on them for fetches done during relcache load. Thus, we have an
4162 * infinite-recursion problem. We can break the recursion by doing
4163 * heapscans instead of indexscans at certain key spots. To avoid hobbling
4164 * performance, we only want to do that until we have the critical indexes
4165 * loaded into relcache. Thus, the flag criticalRelcachesBuilt is used to
4166 * decide whether to do heapscan or indexscan at the key spots, and we set
4167 * it true after we've loaded the critical indexes.
4168 *
4169 * The critical indexes are marked as "nailed in cache", partly to make it
4170 * easy for load_relcache_init_file to count them, but mainly because we
4171 * cannot flush and rebuild them once we've set criticalRelcachesBuilt to
4172 * true. (NOTE: perhaps it would be possible to reload them by
4173 * temporarily setting criticalRelcachesBuilt to false again. For now,
4174 * though, we just nail 'em in.)
4175 *
4176 * RewriteRelRulenameIndexId and TriggerRelidNameIndexId are not critical
4177 * in the same way as the others, because the critical catalogs don't
4178 * (currently) have any rules or triggers, and so these indexes can be
4179 * rebuilt without inducing recursion. However they are used during
4180 * relcache load when a rel does have rules or triggers, so we choose to
4181 * nail them for performance reasons.
4182 */
4184 {
4199
4200#define NUM_CRITICAL_LOCAL_INDEXES 7 /* fix if you change list above */
4201
4203 }
4204
4205 /*
4206 * Process critical shared indexes too.
4207 *
4208 * DatabaseNameIndexId isn't critical for relcache loading, but rather for
4209 * initial lookup of MyDatabaseId, without which we'll never find any
4210 * non-shared catalogs at all. Autovacuum calls InitPostgres with a
4211 * database OID, so it instead depends on DatabaseOidIndexId. We also
4212 * need to nail up some indexes on pg_authid and pg_auth_members for use
4213 * during client authentication. We need indexes on pg_parameter_acl for
4214 * ACL checks on settings specified in the startup packet for a physical
4215 * replication connection. SharedSecLabelObjectIndexId isn't critical for
4216 * the core system, but authentication hooks might be interested in it.
4217 */
4219 {
4236
4237#define NUM_CRITICAL_SHARED_INDEXES 8 /* fix if you change list above */
4238
4240 }
4241
4242 /*
4243 * Now, scan all the relcache entries and update anything that might be
4244 * wrong in the results from formrdesc or the relcache cache file. If we
4245 * faked up relcache entries using formrdesc, then read the real pg_class
4246 * rows and replace the fake entries with them. Also, if any of the
4247 * relcache entries have rules, triggers, or security policies, load that
4248 * info the hard way since it isn't recorded in the cache file.
4249 *
4250 * Whenever we access the catalogs to read data, there is a possibility of
4251 * a shared-inval cache flush causing relcache entries to be removed.
4252 * Since hash_seq_search only guarantees to still work after the *current*
4253 * entry is removed, it's unsafe to continue the hashtable scan afterward.
4254 * We handle this by restarting the scan from scratch after each access.
4255 * This is theoretically O(N^2), but the number of entries that actually
4256 * need to be fixed is small enough that it doesn't matter.
4257 */
4259
4260 while ((idhentry = (RelIdCacheEnt *) hash_seq_search(&status)) != NULL)
4261 {
4262 Relation relation = idhentry->reldesc;
4263 bool restart = false;
4264
4265 /*
4266 * Make sure *this* entry doesn't get flushed while we work with it.
4267 */
4269
4270 /*
4271 * If it's a faked-up entry, read the real pg_class tuple.
4272 */
4273 if (relation->rd_rel->relowner == InvalidOid)
4274 {
4275 HeapTuple htup;
4277
4278 htup = SearchSysCache1(RELOID,
4280 if (!HeapTupleIsValid(htup))
4281 ereport(FATAL,
4283 errmsg_internal("cache lookup failed for relation %u",
4284 RelationGetRelid(relation)));
4285 relp = (Form_pg_class) GETSTRUCT(htup);
4286
4287 /*
4288 * Copy tuple to relation->rd_rel. (See notes in
4289 * AllocateRelationDesc())
4290 */
4291 memcpy((char *) relation->rd_rel, (char *) relp, CLASS_TUPLE_SIZE);
4292
4293 /* Update rd_options while we have the tuple */
4294 if (relation->rd_options)
4295 pfree(relation->rd_options);
4296 RelationParseRelOptions(relation, htup);
4297
4298 /*
4299 * Check the values in rd_att were set up correctly. (We cannot
4300 * just copy them over now: formrdesc must have set up the rd_att
4301 * data correctly to start with, because it may already have been
4302 * copied into one or more catcache entries.)
4303 */
4304 Assert(relation->rd_att->tdtypeid == relp->reltype);
4305 Assert(relation->rd_att->tdtypmod == -1);
4306
4307 ReleaseSysCache(htup);
4308
4309 /* relowner had better be OK now, else we'll loop forever */
4310 if (relation->rd_rel->relowner == InvalidOid)
4311 elog(ERROR, "invalid relowner in pg_class entry for \"%s\"",
4312 RelationGetRelationName(relation));
4313
4314 restart = true;
4315 }
4316
4317 /*
4318 * Fix data that isn't saved in relcache cache file.
4319 *
4320 * relhasrules or relhastriggers could possibly be wrong or out of
4321 * date. If we don't actually find any rules or triggers, clear the
4322 * local copy of the flag so that we don't get into an infinite loop
4323 * here. We don't make any attempt to fix the pg_class entry, though.
4324 */
4325 if (relation->rd_rel->relhasrules && relation->rd_rules == NULL)
4326 {
4327 RelationBuildRuleLock(relation);
4328 if (relation->rd_rules == NULL)
4329 relation->rd_rel->relhasrules = false;
4330 restart = true;
4331 }
4332 if (relation->rd_rel->relhastriggers && relation->trigdesc == NULL)
4333 {
4334 RelationBuildTriggers(relation);
4335 if (relation->trigdesc == NULL)
4336 relation->rd_rel->relhastriggers = false;
4337 restart = true;
4338 }
4339
4340 /*
4341 * Re-load the row security policies if the relation has them, since
4342 * they are not preserved in the cache. Note that we can never NOT
4343 * have a policy while relrowsecurity is true,
4344 * RelationBuildRowSecurity will create a single default-deny policy
4345 * if there is no policy defined in pg_policy.
4346 */
4347 if (relation->rd_rel->relrowsecurity && relation->rd_rsdesc == NULL)
4348 {
4349 RelationBuildRowSecurity(relation);
4350
4351 Assert(relation->rd_rsdesc != NULL);
4352 restart = true;
4353 }
4354
4355 /* Reload tableam data if needed */
4356 if (relation->rd_tableam == NULL &&
4357 (RELKIND_HAS_TABLE_AM(relation->rd_rel->relkind) || relation->rd_rel->relkind == RELKIND_SEQUENCE))
4358 {
4360 Assert(relation->rd_tableam != NULL);
4361
4362 restart = true;
4363 }
4364
4365 /* Release hold on the relation */
4367
4368 /* Now, restart the hashtable scan if needed */
4369 if (restart)
4370 {
4371 hash_seq_term(&status);
4373 }
4374 }
4375
4376 /*
4377 * Lastly, write out new relcache cache files if needed. We don't bother
4378 * to distinguish cases where only one of the two needs an update.
4379 */
4380 if (needNewCacheFile)
4381 {
4382 /*
4383 * Force all the catcaches to finish initializing and thereby open the
4384 * catalogs and indexes they use. This will preload the relcache with
4385 * entries for all the most important system catalogs and indexes, so
4386 * that the init files will be most useful for future backends.
4387 */
4389
4390 /* now write the files */
4393 }
4394}
void hash_seq_term(HASH_SEQ_STATUS *status)
Definition dynahash.c:1444
int errcode(int sqlerrcode)
Definition elog.c:875
#define FATAL
Definition elog.h:42
int int errmsg_internal(const char *fmt,...) pg_attribute_printf(1
#define ereport(elevel,...)
Definition elog.h:152
void RelationBuildRowSecurity(Relation relation)
Definition policy.c:193
static void RelationParseRelOptions(Relation relation, HeapTuple tuple)
Definition relcache.c:472
void RelationDecrementReferenceCount(Relation rel)
Definition relcache.c:2202
bool criticalRelcachesBuilt
Definition relcache.c:144
bool criticalSharedRelcachesBuilt
Definition relcache.c:150
static const FormData_pg_attribute Desc_pg_attribute[Natts_pg_attribute]
Definition relcache.c:115
static const FormData_pg_attribute Desc_pg_class[Natts_pg_class]
Definition relcache.c:114
static void RelationBuildRuleLock(Relation relation)
Definition relcache.c:750
static const FormData_pg_attribute Desc_pg_proc[Natts_pg_proc]
Definition relcache.c:116
static void write_relcache_init_file(bool shared)
Definition relcache.c:6620
static const FormData_pg_attribute Desc_pg_type[Natts_pg_type]
Definition relcache.c:117
static void load_critical_index(Oid indexoid, Oid heapoid)
Definition relcache.c:4403
void RelationMapInitializePhase3(void)
Definition relmapper.c:693
const struct TableAmRoutine * rd_tableam
Definition rel.h:189
struct RowSecurityDesc * rd_rsdesc
Definition rel.h:119
TriggerDesc * trigdesc
Definition rel.h:117
RuleLock * rd_rules
Definition rel.h:115
bytea * rd_options
Definition rel.h:175
int32 tdtypmod
Definition tupdesc.h:152
void InitCatalogCachePhase2(void)
Definition syscache.c:181
void RelationBuildTriggers(Relation relation)
Definition trigger.c:1863

References Assert, CacheMemoryContext, CLASS_TUPLE_SIZE, criticalRelcachesBuilt, criticalSharedRelcachesBuilt, Desc_pg_attribute, Desc_pg_class, Desc_pg_proc, Desc_pg_type, elog, ereport, errcode(), errmsg_internal(), ERROR, FATAL, fb(), formrdesc(), GETSTRUCT(), hash_seq_init(), hash_seq_search(), hash_seq_term(), HeapTupleIsValid, InitCatalogCachePhase2(), InvalidOid, IsBootstrapProcessingMode, load_critical_index(), load_relcache_init_file(), memcpy(), MemoryContextSwitchTo(), ObjectIdGetDatum(), pfree(), RelationData::rd_att, RelationData::rd_options, RelationData::rd_rel, RelationData::rd_rsdesc, RelationData::rd_rules, RelationData::rd_tableam, RelationBuildRowSecurity(), RelationBuildRuleLock(), RelationBuildTriggers(), RelationDecrementReferenceCount(), RelationGetRelationName, RelationGetRelid, RelationIdCache, RelationIncrementReferenceCount(), RelationInitTableAccessMethod(), RelationMapInitializePhase3(), RelationParseRelOptions(), ReleaseSysCache(), SearchSysCache1(), TupleDescData::tdtypeid, TupleDescData::tdtypmod, RelationData::trigdesc, and write_relcache_init_file().

Referenced by InitPostgres().

◆ RelationCacheInvalidate()

void RelationCacheInvalidate ( bool  debug_discard)
extern

Definition at line 2996 of file relcache.c.

2997{
2998 HASH_SEQ_STATUS status;
3000 Relation relation;
3002 List *rebuildList = NIL;
3003 ListCell *l;
3004 int i;
3005
3006 /*
3007 * Reload relation mapping data before starting to reconstruct cache.
3008 */
3010
3011 /* Phase 1 */
3013
3014 while ((idhentry = (RelIdCacheEnt *) hash_seq_search(&status)) != NULL)
3015 {
3016 relation = idhentry->reldesc;
3017
3018 /*
3019 * Ignore new relations; no other backend will manipulate them before
3020 * we commit. Likewise, before replacing a relation's relfilelocator,
3021 * we shall have acquired AccessExclusiveLock and drained any
3022 * applicable pending invalidations.
3023 */
3024 if (relation->rd_createSubid != InvalidSubTransactionId ||
3026 continue;
3027
3029
3030 if (RelationHasReferenceCountZero(relation))
3031 {
3032 /* Delete this entry immediately */
3033 RelationClearRelation(relation);
3034 }
3035 else
3036 {
3037 /*
3038 * If it's a mapped relation, immediately update its rd_locator in
3039 * case its relfilenumber changed. We must do this during phase 1
3040 * in case the relation is consulted during rebuild of other
3041 * relcache entries in phase 2. It's safe since consulting the
3042 * map doesn't involve any access to relcache entries.
3043 */
3044 if (RelationIsMapped(relation))
3045 {
3046 RelationCloseSmgr(relation);
3047 RelationInitPhysicalAddr(relation);
3048 }
3049
3050 /*
3051 * Add this entry to list of stuff to rebuild in second pass.
3052 * pg_class goes to the front of rebuildFirstList while
3053 * pg_class_oid_index goes to the back of rebuildFirstList, so
3054 * they are done first and second respectively. Other nailed
3055 * relations go to the front of rebuildList, so they'll be done
3056 * next in no particular order; and everything else goes to the
3057 * back of rebuildList.
3058 */
3059 if (RelationGetRelid(relation) == RelationRelationId)
3061 else if (RelationGetRelid(relation) == ClassOidIndexId)
3063 else if (relation->rd_isnailed)
3064 rebuildList = lcons(relation, rebuildList);
3065 else
3066 rebuildList = lappend(rebuildList, relation);
3067 }
3068 }
3069
3070 /*
3071 * We cannot destroy the SMgrRelations as there might still be references
3072 * to them, but close the underlying file descriptors.
3073 */
3075
3076 /*
3077 * Phase 2: rebuild (or invalidate) the items found to need rebuild in
3078 * phase 1
3079 */
3080 foreach(l, rebuildFirstList)
3081 {
3082 relation = (Relation) lfirst(l);
3083 if (!IsTransactionState() || (relation->rd_isnailed && relation->rd_refcnt == 1))
3085 else
3086 RelationRebuildRelation(relation);
3087 }
3089 foreach(l, rebuildList)
3090 {
3091 relation = (Relation) lfirst(l);
3092 if (!IsTransactionState() || (relation->rd_isnailed && relation->rd_refcnt == 1))
3094 else
3095 RelationRebuildRelation(relation);
3096 }
3098
3099 if (!debug_discard)
3100 /* Any RelationBuildDesc() on the stack must start over. */
3101 for (i = 0; i < in_progress_list_len; i++)
3102 in_progress_list[i].invalidated = true;
3103}
struct RelationData * Relation
Definition genam.h:30
List * lappend(List *list, void *datum)
Definition list.c:339
List * lcons(void *datum, List *list)
Definition list.c:495
void list_free(List *list)
Definition list.c:1546
#define lfirst(lc)
Definition pg_list.h:172
#define RelationHasReferenceCountZero(relation)
Definition rel.h:500
#define RelationIsMapped(relation)
Definition rel.h:565
static void RelationCloseSmgr(Relation relation)
Definition rel.h:593
static void RelationClearRelation(Relation relation)
Definition relcache.c:2548
static void RelationRebuildRelation(Relation relation)
Definition relcache.c:2587
static long relcacheInvalsReceived
Definition relcache.c:158
static void RelationInvalidateRelation(Relation relation)
Definition relcache.c:2520
void RelationMapInvalidateAll(void)
Definition relmapper.c:491
void smgrreleaseall(void)
Definition smgr.c:412
bool IsTransactionState(void)
Definition xact.c:389

References fb(), hash_seq_init(), hash_seq_search(), i, in_progress_list, in_progress_list_len, InvalidSubTransactionId, IsTransactionState(), lappend(), lcons(), lfirst, list_free(), NIL, RelationData::rd_createSubid, RelationData::rd_firstRelfilelocatorSubid, RelationData::rd_isnailed, RelationData::rd_refcnt, RelationClearRelation(), RelationCloseSmgr(), RelationGetRelid, RelationHasReferenceCountZero, RelationIdCache, RelationInitPhysicalAddr(), RelationInvalidateRelation(), RelationIsMapped, RelationMapInvalidateAll(), RelationRebuildRelation(), relcacheInvalsReceived, and smgrreleaseall().

Referenced by InvalidateSystemCachesExtended(), and LocalExecuteInvalidationMessage().

◆ RelationCacheInvalidateEntry()

void RelationCacheInvalidateEntry ( Oid  relationId)
extern

Definition at line 2940 of file relcache.c.

2941{
2942 Relation relation;
2943
2945
2946 if (relation)
2947 {
2949 RelationFlushRelation(relation);
2950 }
2951 else
2952 {
2953 int i;
2954
2955 for (i = 0; i < in_progress_list_len; i++)
2956 if (in_progress_list[i].reloid == relationId)
2958 }
2959}
#define RelationIdCacheLookup(ID, RELATION)
Definition relcache.c:235
static void RelationFlushRelation(Relation relation)
Definition relcache.c:2829
bool invalidated
Definition relcache.c:171

References fb(), i, in_progress_list, in_progress_list_len, inprogressent::invalidated, RelationFlushRelation(), RelationIdCacheLookup, and relcacheInvalsReceived.

Referenced by LocalExecuteInvalidationMessage().

◆ RelationClose()

void RelationClose ( Relation  relation)
extern

Definition at line 2222 of file relcache.c.

2223{
2224 /* Note: no locking manipulations needed */
2226
2227 RelationCloseCleanup(relation);
2228}
static void RelationCloseCleanup(Relation relation)
Definition relcache.c:2231

References RelationCloseCleanup(), and RelationDecrementReferenceCount().

Referenced by index_close(), init_tuple_slot(), maybe_send_schema(), pgoutput_change(), pgoutput_column_list_init(), pgoutput_row_filter_init(), relation_close(), RelationGetIdentityKeyBitmap(), ReorderBufferProcessTXN(), and ReorderBufferToastReplace().

◆ RelationForgetRelation()

void RelationForgetRelation ( Oid  rid)
extern

Definition at line 2895 of file relcache.c.

2896{
2897 Relation relation;
2898
2899 RelationIdCacheLookup(rid, relation);
2900
2901 if (!relation)
2902 return; /* not in cache, nothing to do */
2903
2904 if (!RelationHasReferenceCountZero(relation))
2905 elog(ERROR, "relation %u is still open", rid);
2906
2908 if (relation->rd_createSubid != InvalidSubTransactionId ||
2910 {
2911 /*
2912 * In the event of subtransaction rollback, we must not forget
2913 * rd_*Subid. Mark the entry "dropped" and invalidate it, instead of
2914 * destroying it right away. (If we're in a top transaction, we could
2915 * opt to destroy the entry.)
2916 */
2919 }
2920 else
2921 RelationClearRelation(relation);
2922}

References Assert, elog, ERROR, GetCurrentSubTransactionId(), InvalidSubTransactionId, RelationData::rd_createSubid, RelationData::rd_droppedSubid, RelationData::rd_firstRelfilelocatorSubid, RelationClearRelation(), RelationHasReferenceCountZero, RelationIdCacheLookup, and RelationInvalidateRelation().

Referenced by heap_drop_with_catalog(), and index_drop().

◆ RelationGetDummyIndexExpressions()

List * RelationGetDummyIndexExpressions ( Relation  relation)
extern

Definition at line 5166 of file relcache.c.

5167{
5168 List *result;
5170 bool isnull;
5171 char *exprsString;
5172 List *rawExprs;
5173 ListCell *lc;
5174
5175 /* Quick exit if there is nothing to do. */
5176 if (relation->rd_indextuple == NULL ||
5178 return NIL;
5179
5180 /* Extract raw node tree(s) from index tuple. */
5184 &isnull);
5185 Assert(!isnull);
5189
5190 /* Construct null Consts; the typlen and typbyval are arbitrary. */
5191 result = NIL;
5192 foreach(lc, rawExprs)
5193 {
5194 Node *rawExpr = (Node *) lfirst(lc);
5195
5200 1,
5201 (Datum) 0,
5202 true,
5203 true));
5204 }
5205
5206 return result;
5207}
#define TextDatumGetCString(d)
Definition builtins.h:99
uint32 result
bool heap_attisnull(HeapTuple tup, int attnum, TupleDesc tupleDesc)
Definition heaptuple.c:456
static Datum heap_getattr(HeapTuple tup, int attnum, TupleDesc tupleDesc, bool *isnull)
Const * makeConst(Oid consttype, int32 consttypmod, Oid constcollid, int constlen, Datum constvalue, bool constisnull, bool constbyval)
Definition makefuncs.c:350
Oid exprType(const Node *expr)
Definition nodeFuncs.c:42
int32 exprTypmod(const Node *expr)
Definition nodeFuncs.c:304
Oid exprCollation(const Node *expr)
Definition nodeFuncs.c:826
uint64_t Datum
Definition postgres.h:70
void * stringToNode(const char *str)
Definition read.c:90
static TupleDesc GetPgIndexDescriptor(void)
Definition relcache.c:4483
Definition nodes.h:133
struct HeapTupleData * rd_indextuple
Definition rel.h:194

References Assert, exprCollation(), exprType(), exprTypmod(), fb(), GetPgIndexDescriptor(), heap_attisnull(), heap_getattr(), lappend(), lfirst, makeConst(), NIL, pfree(), RelationData::rd_indextuple, result, stringToNode(), and TextDatumGetCString.

Referenced by BuildDummyIndexInfo().

◆ RelationGetExclusionInfo()

void RelationGetExclusionInfo ( Relation  indexRelation,
Oid **  operators,
Oid **  procs,
uint16 **  strategies 
)
extern

Definition at line 5663 of file relcache.c.

5667{
5668 int indnkeyatts;
5669 Oid *ops;
5670 Oid *funcs;
5671 uint16 *strats;
5674 ScanKeyData skey[1];
5675 HeapTuple htup;
5676 bool found;
5678 int i;
5679
5681
5682 /* Allocate result space in caller context */
5683 *operators = ops = palloc_array(Oid, indnkeyatts);
5684 *procs = funcs = palloc_array(Oid, indnkeyatts);
5686
5687 /* Quick exit if we have the data cached already */
5688 if (indexRelation->rd_exclstrats != NULL)
5689 {
5690 memcpy(ops, indexRelation->rd_exclops, sizeof(Oid) * indnkeyatts);
5691 memcpy(funcs, indexRelation->rd_exclprocs, sizeof(Oid) * indnkeyatts);
5692 memcpy(strats, indexRelation->rd_exclstrats, sizeof(uint16) * indnkeyatts);
5693 return;
5694 }
5695
5696 /*
5697 * Search pg_constraint for the constraint associated with the index. To
5698 * make this not too painfully slow, we use the index on conrelid; that
5699 * will hold the parent relation's OID not the index's own OID.
5700 *
5701 * Note: if we wanted to rely on the constraint name matching the index's
5702 * name, we could just do a direct lookup using pg_constraint's unique
5703 * index. For the moment it doesn't seem worth requiring that.
5704 */
5705 ScanKeyInit(&skey[0],
5708 ObjectIdGetDatum(indexRelation->rd_index->indrelid));
5709
5712 NULL, 1, skey);
5713 found = false;
5714
5716 {
5718 Datum val;
5719 bool isnull;
5720 ArrayType *arr;
5721 int nelem;
5722
5723 /* We want the exclusion constraint owning the index */
5724 if ((conform->contype != CONSTRAINT_EXCLUSION &&
5725 !(conform->conperiod && (conform->contype == CONSTRAINT_PRIMARY
5726 || conform->contype == CONSTRAINT_UNIQUE))) ||
5727 conform->conindid != RelationGetRelid(indexRelation))
5728 continue;
5729
5730 /* There should be only one */
5731 if (found)
5732 elog(ERROR, "unexpected exclusion constraint record found for rel %s",
5733 RelationGetRelationName(indexRelation));
5734 found = true;
5735
5736 /* Extract the operator OIDS from conexclop */
5737 val = fastgetattr(htup,
5739 conrel->rd_att, &isnull);
5740 if (isnull)
5741 elog(ERROR, "null conexclop for rel %s",
5742 RelationGetRelationName(indexRelation));
5743
5744 arr = DatumGetArrayTypeP(val); /* ensure not toasted */
5745 nelem = ARR_DIMS(arr)[0];
5746 if (ARR_NDIM(arr) != 1 ||
5747 nelem != indnkeyatts ||
5748 ARR_HASNULL(arr) ||
5749 ARR_ELEMTYPE(arr) != OIDOID)
5750 elog(ERROR, "conexclop is not a 1-D Oid array");
5751
5752 memcpy(ops, ARR_DATA_PTR(arr), sizeof(Oid) * indnkeyatts);
5753 }
5754
5757
5758 if (!found)
5759 elog(ERROR, "exclusion constraint record missing for rel %s",
5760 RelationGetRelationName(indexRelation));
5761
5762 /* We need the func OIDs and strategy numbers too */
5763 for (i = 0; i < indnkeyatts; i++)
5764 {
5765 funcs[i] = get_opcode(ops[i]);
5766 strats[i] = get_op_opfamily_strategy(ops[i],
5767 indexRelation->rd_opfamily[i]);
5768 /* shouldn't fail, since it was checked at index creation */
5769 if (strats[i] == InvalidStrategy)
5770 elog(ERROR, "could not find strategy for operator %u in family %u",
5771 ops[i], indexRelation->rd_opfamily[i]);
5772 }
5773
5774 /* Save a copy of the results in the relcache entry. */
5775 oldcxt = MemoryContextSwitchTo(indexRelation->rd_indexcxt);
5776 indexRelation->rd_exclops = palloc_array(Oid, indnkeyatts);
5777 indexRelation->rd_exclprocs = palloc_array(Oid, indnkeyatts);
5778 indexRelation->rd_exclstrats = palloc_array(uint16, indnkeyatts);
5779 memcpy(indexRelation->rd_exclops, ops, sizeof(Oid) * indnkeyatts);
5780 memcpy(indexRelation->rd_exclprocs, funcs, sizeof(Oid) * indnkeyatts);
5781 memcpy(indexRelation->rd_exclstrats, strats, sizeof(uint16) * indnkeyatts);
5783}
#define ARR_NDIM(a)
Definition array.h:290
#define ARR_DATA_PTR(a)
Definition array.h:322
#define DatumGetArrayTypeP(X)
Definition array.h:261
#define ARR_ELEMTYPE(a)
Definition array.h:292
#define ARR_DIMS(a)
Definition array.h:294
#define ARR_HASNULL(a)
Definition array.h:291
uint16_t uint16
Definition c.h:679
#define palloc_array(type, count)
Definition fe_memutils.h:91
void systable_endscan(SysScanDesc sysscan)
Definition genam.c:604
HeapTuple systable_getnext(SysScanDesc sysscan)
Definition genam.c:515
SysScanDesc systable_beginscan(Relation heapRelation, Oid indexId, bool indexOK, Snapshot snapshot, int nkeys, ScanKey key)
Definition genam.c:388
static Datum fastgetattr(HeapTuple tup, int attnum, TupleDesc tupleDesc, bool *isnull)
long val
Definition informix.c:689
#define AccessShareLock
Definition lockdefs.h:36
RegProcedure get_opcode(Oid opno)
Definition lsyscache.c:1577
int get_op_opfamily_strategy(Oid opno, Oid opfamily)
Definition lsyscache.c:87
END_CATALOG_STRUCT typedef FormData_pg_constraint * Form_pg_constraint
#define IndexRelationGetNumberOfKeyAttributes(relation)
Definition rel.h:535
void ScanKeyInit(ScanKey entry, AttrNumber attributeNumber, StrategyNumber strategy, RegProcedure procedure, Datum argument)
Definition scankey.c:76
#define InvalidStrategy
Definition stratnum.h:24
#define BTEqualStrategyNumber
Definition stratnum.h:31
Oid * rd_exclprocs
Definition rel.h:215
uint16 * rd_exclstrats
Definition rel.h:216
Oid * rd_exclops
Definition rel.h:214
Form_pg_index rd_index
Definition rel.h:192
MemoryContext rd_indexcxt
Definition rel.h:204
Oid * rd_opfamily
Definition rel.h:207
void table_close(Relation relation, LOCKMODE lockmode)
Definition table.c:126
Relation table_open(Oid relationId, LOCKMODE lockmode)
Definition table.c:40

References AccessShareLock, ARR_DATA_PTR, ARR_DIMS, ARR_ELEMTYPE, ARR_HASNULL, ARR_NDIM, BTEqualStrategyNumber, DatumGetArrayTypeP, elog, ERROR, fastgetattr(), fb(), Form_pg_constraint, get_op_opfamily_strategy(), get_opcode(), GETSTRUCT(), HeapTupleIsValid, i, IndexRelationGetNumberOfKeyAttributes, InvalidStrategy, memcpy(), MemoryContextSwitchTo(), ObjectIdGetDatum(), palloc_array, RelationData::rd_exclops, RelationData::rd_exclprocs, RelationData::rd_exclstrats, RelationData::rd_index, RelationData::rd_indexcxt, RelationData::rd_opfamily, RelationGetRelationName, RelationGetRelid, ScanKeyInit(), systable_beginscan(), systable_endscan(), systable_getnext(), table_close(), table_open(), and val.

Referenced by BuildIndexInfo(), and CheckIndexCompatible().

◆ RelationGetFKeyList()

List * RelationGetFKeyList ( Relation  relation)
extern

Definition at line 4741 of file relcache.c.

4742{
4743 List *result;
4747 HeapTuple htup;
4748 List *oldlist;
4750
4751 /* Quick exit if we already computed the list. */
4752 if (relation->rd_fkeyvalid)
4753 return relation->rd_fkeylist;
4754
4755 /*
4756 * We build the list we intend to return (in the caller's context) while
4757 * doing the scan. After successfully completing the scan, we copy that
4758 * list into the relcache entry. This avoids cache-context memory leakage
4759 * if we get some sort of error partway through.
4760 */
4761 result = NIL;
4762
4763 /* Prepare to scan pg_constraint for entries having conrelid = this rel. */
4768
4771 NULL, 1, &skey);
4772
4774 {
4775 Form_pg_constraint constraint = (Form_pg_constraint) GETSTRUCT(htup);
4776 ForeignKeyCacheInfo *info;
4777
4778 /* consider only foreign keys */
4779 if (constraint->contype != CONSTRAINT_FOREIGN)
4780 continue;
4781
4783 info->conoid = constraint->oid;
4784 info->conrelid = constraint->conrelid;
4785 info->confrelid = constraint->confrelid;
4786 info->conenforced = constraint->conenforced;
4787
4788 DeconstructFkConstraintRow(htup, &info->nkeys,
4789 info->conkey,
4790 info->confkey,
4791 info->conpfeqop,
4792 NULL, NULL, NULL, NULL);
4793
4794 /* Add FK's node to the result list */
4795 result = lappend(result, info);
4796 }
4797
4800
4801 /* Now save a copy of the completed list in the relcache entry. */
4803 oldlist = relation->rd_fkeylist;
4804 relation->rd_fkeylist = copyObject(result);
4805 relation->rd_fkeyvalid = true;
4807
4808 /* Don't leak the old list, if there is one */
4810
4811 return result;
4812}
void list_free_deep(List *list)
Definition list.c:1560
#define copyObject(obj)
Definition nodes.h:230
#define makeNode(_type_)
Definition nodes.h:159
void DeconstructFkConstraintRow(HeapTuple tuple, int *numfks, AttrNumber *conkey, AttrNumber *confkey, Oid *pf_eq_oprs, Oid *pp_eq_oprs, Oid *ff_eq_oprs, int *num_fk_del_set_cols, AttrNumber *fk_del_set_cols)
List * rd_fkeylist
Definition rel.h:122
bool rd_fkeyvalid
Definition rel.h:123

References AccessShareLock, BTEqualStrategyNumber, CacheMemoryContext, ForeignKeyCacheInfo::conenforced, ForeignKeyCacheInfo::confrelid, ForeignKeyCacheInfo::conoid, ForeignKeyCacheInfo::conrelid, copyObject, DeconstructFkConstraintRow(), fb(), Form_pg_constraint, GETSTRUCT(), HeapTupleIsValid, lappend(), list_free_deep(), makeNode, MemoryContextSwitchTo(), NIL, ForeignKeyCacheInfo::nkeys, ObjectIdGetDatum(), RelationData::rd_fkeylist, RelationData::rd_fkeyvalid, RelationGetRelid, result, ScanKeyInit(), systable_beginscan(), systable_endscan(), systable_getnext(), table_close(), and table_open().

Referenced by addFkRecurseReferencing(), CloneFkReferencing(), DetachPartitionFinalize(), get_relation_foreign_keys(), and propgraph_edge_get_ref_keys().

◆ RelationGetIdentityKeyBitmap()

Bitmapset * RelationGetIdentityKeyBitmap ( Relation  relation)
extern

Definition at line 5586 of file relcache.c.

5587{
5588 Bitmapset *idindexattrs = NULL; /* columns in the replica identity */
5590 int i;
5593
5594 /* Quick exit if we already computed the result */
5595 if (relation->rd_idattr != NULL)
5596 return bms_copy(relation->rd_idattr);
5597
5598 /* Fast path if definitely no indexes */
5599 if (!RelationGetForm(relation)->relhasindex)
5600 return NULL;
5601
5602 /* Historic snapshot must be set. */
5604
5606
5607 /* Fall out if there is no replica identity index */
5608 if (!OidIsValid(replidindex))
5609 return NULL;
5610
5611 /* Look up the description for the replica identity index */
5613
5615 elog(ERROR, "could not open relation with OID %u",
5616 relation->rd_replidindex);
5617
5618 /* Add referenced attributes to idindexattrs */
5619 for (i = 0; i < indexDesc->rd_index->indnatts; i++)
5620 {
5621 int attrnum = indexDesc->rd_index->indkey.values[i];
5622
5623 /*
5624 * We don't include non-key columns into idindexattrs bitmaps. See
5625 * RelationGetIndexAttrBitmap.
5626 */
5627 if (attrnum != 0)
5628 {
5629 if (i < indexDesc->rd_index->indnkeyatts)
5632 }
5633 }
5634
5636
5637 /* Don't leak the old values of these bitmaps, if any */
5638 bms_free(relation->rd_idattr);
5639 relation->rd_idattr = NULL;
5640
5641 /* Now save copy of the bitmap in the relcache entry */
5643 relation->rd_idattr = bms_copy(idindexattrs);
5645
5646 /* We return our original working copy for caller to play with */
5647 return idindexattrs;
5648}
void bms_free(Bitmapset *a)
Definition bitmapset.c:239
Bitmapset * bms_add_member(Bitmapset *a, int x)
Definition bitmapset.c:799
Bitmapset * bms_copy(const Bitmapset *a)
Definition bitmapset.c:122
#define OidIsValid(objectId)
Definition c.h:914
#define RelationGetForm(relation)
Definition rel.h:510
#define RelationIsValid(relation)
Definition rel.h:491
Oid RelationGetReplicaIndex(Relation relation)
Definition relcache.c:5082
Relation RelationIdGetRelation(Oid relationId)
Definition relcache.c:2091
void RelationClose(Relation relation)
Definition relcache.c:2222
bool HistoricSnapshotActive(void)
Definition snapmgr.c:1692
Oid rd_replidindex
Definition rel.h:155
Bitmapset * rd_idattr
Definition rel.h:164
#define FirstLowInvalidHeapAttributeNumber
Definition sysattr.h:27

References Assert, bms_add_member(), bms_copy(), bms_free(), CacheMemoryContext, elog, ERROR, fb(), FirstLowInvalidHeapAttributeNumber, HistoricSnapshotActive(), i, MemoryContextSwitchTo(), OidIsValid, RelationData::rd_idattr, RelationData::rd_replidindex, RelationClose(), RelationGetForm, RelationGetReplicaIndex(), RelationIdGetRelation(), and RelationIsValid.

Referenced by logicalrep_write_attrs().

◆ RelationGetIndexAttOptions()

bytea ** RelationGetIndexAttOptions ( Relation  relation,
bool  copy 
)
extern

Definition at line 6021 of file relcache.c.

6022{
6024 bytea **opts = relation->rd_opcoptions;
6025 Oid relid = RelationGetRelid(relation);
6026 int natts = RelationGetNumberOfAttributes(relation); /* XXX
6027 * IndexRelationGetNumberOfKeyAttributes */
6028 int i;
6029
6030 /* Try to copy cached options. */
6031 if (opts)
6032 return copy ? CopyIndexAttOptions(opts, natts) : opts;
6033
6034 /* Get and parse opclass options. */
6035 opts = palloc0_array(bytea *, natts);
6036
6037 for (i = 0; i < natts; i++)
6038 {
6040 {
6041 Datum attoptions = get_attoptions(relid, i + 1);
6042
6043 opts[i] = index_opclass_options(relation, i + 1, attoptions, false);
6044
6045 if (attoptions != (Datum) 0)
6046 pfree(DatumGetPointer(attoptions));
6047 }
6048 }
6049
6050 /* Copy parsed options to the cache. */
6052 relation->rd_opcoptions = CopyIndexAttOptions(opts, natts);
6054
6055 if (copy)
6056 return opts;
6057
6058 for (i = 0; i < natts; i++)
6059 {
6060 if (opts[i])
6061 pfree(opts[i]);
6062 }
6063
6064 pfree(opts);
6065
6066 return relation->rd_opcoptions;
6067}
#define palloc0_array(type, count)
Definition fe_memutils.h:92
bytea * index_opclass_options(Relation indrel, AttrNumber attnum, Datum attoptions, bool validate)
Definition indexam.c:1016
Datum get_attoptions(Oid relid, int16 attnum)
Definition lsyscache.c:1188
static AmcheckOptions opts
Definition pg_amcheck.c:112
static Pointer DatumGetPointer(Datum X)
Definition postgres.h:332
#define RelationGetNumberOfAttributes(relation)
Definition rel.h:522
static bytea ** CopyIndexAttOptions(bytea **srcopts, int natts)
Definition relcache.c:6001
bytea ** rd_opcoptions
Definition rel.h:218
Definition c.h:832

References CopyIndexAttOptions(), criticalRelcachesBuilt, DatumGetPointer(), fb(), get_attoptions(), i, index_opclass_options(), MemoryContextSwitchTo(), opts, palloc0_array, pfree(), RelationData::rd_indexcxt, RelationData::rd_opcoptions, RelationGetNumberOfAttributes, and RelationGetRelid.

Referenced by get_relation_info(), index_getprocinfo(), load_critical_index(), and RelationInitIndexAccessInfo().

◆ RelationGetIndexAttrBitmap()

Bitmapset * RelationGetIndexAttrBitmap ( Relation  relation,
IndexAttrBitmapKind  attrKind 
)
extern

Definition at line 5313 of file relcache.c.

5314{
5315 Bitmapset *uindexattrs; /* columns in unique indexes */
5316 Bitmapset *pkindexattrs; /* columns in the primary index */
5317 Bitmapset *idindexattrs; /* columns in the replica identity */
5318 Bitmapset *hotblockingattrs; /* columns with HOT blocking indexes */
5319 Bitmapset *summarizedattrs; /* columns with summarizing indexes */
5324 ListCell *l;
5326
5327 /* Quick exit if we already computed the result. */
5328 if (relation->rd_attrsvalid)
5329 {
5330 switch (attrKind)
5331 {
5333 return bms_copy(relation->rd_keyattr);
5335 return bms_copy(relation->rd_pkattr);
5337 return bms_copy(relation->rd_idattr);
5339 return bms_copy(relation->rd_hotblockingattr);
5341 return bms_copy(relation->rd_summarizedattr);
5342 default:
5343 elog(ERROR, "unknown attrKind %u", attrKind);
5344 }
5345 }
5346
5347 /* Fast path if definitely no indexes */
5348 if (!RelationGetForm(relation)->relhasindex)
5349 return NULL;
5350
5351 /*
5352 * Get cached list of index OIDs. If we have to start over, we do so here.
5353 */
5354restart:
5356
5357 /* Fall out if no indexes (but relhasindex was set) */
5358 if (indexoidlist == NIL)
5359 return NULL;
5360
5361 /*
5362 * Copy the rd_pkindex and rd_replidindex values computed by
5363 * RelationGetIndexList before proceeding. This is needed because a
5364 * relcache flush could occur inside index_open below, resetting the
5365 * fields managed by RelationGetIndexList. We need to do the work with
5366 * stable values of these fields.
5367 */
5368 relpkindex = relation->rd_pkindex;
5369 relreplindex = relation->rd_replidindex;
5370
5371 /*
5372 * For each index, add referenced attributes to indexattrs.
5373 *
5374 * Note: we consider all indexes returned by RelationGetIndexList, even if
5375 * they are not indisready or indisvalid. This is important because an
5376 * index for which CREATE INDEX CONCURRENTLY has just started must be
5377 * included in HOT-safety decisions (see README.HOT). If a DROP INDEX
5378 * CONCURRENTLY is far enough along that we should ignore the index, it
5379 * won't be returned at all by RelationGetIndexList.
5380 */
5381 uindexattrs = NULL;
5386 foreach(l, indexoidlist)
5387 {
5388 Oid indexOid = lfirst_oid(l);
5390 Datum datum;
5391 bool isnull;
5394 int i;
5395 bool isKey; /* candidate key */
5396 bool isPK; /* primary key */
5397 bool isIDKey; /* replica identity index */
5398 Bitmapset **attrs;
5399
5401
5402 /*
5403 * Extract index expressions and index predicate. Note: Don't use
5404 * RelationGetIndexExpressions()/RelationGetIndexPredicate(), because
5405 * those might run constant expressions evaluation, which needs a
5406 * snapshot, which we might not have here. (Also, it's probably more
5407 * sound to collect the bitmaps before any transformations that might
5408 * eliminate columns, but the practical impact of this is limited.)
5409 */
5410
5411 datum = heap_getattr(indexDesc->rd_indextuple, Anum_pg_index_indexprs,
5412 GetPgIndexDescriptor(), &isnull);
5413 if (!isnull)
5415 else
5417
5418 datum = heap_getattr(indexDesc->rd_indextuple, Anum_pg_index_indpred,
5419 GetPgIndexDescriptor(), &isnull);
5420 if (!isnull)
5422 else
5424
5425 /* Can this index be referenced by a foreign key? */
5426 isKey = indexDesc->rd_index->indisunique &&
5429
5430 /* Is this a primary key? */
5431 isPK = (indexOid == relpkindex);
5432
5433 /* Is this index the configured (or default) replica identity? */
5434 isIDKey = (indexOid == relreplindex);
5435
5436 /*
5437 * If the index is summarizing, it doesn't block HOT updates, but we
5438 * may still need to update it (if the attributes were modified). So
5439 * decide which bitmap we'll update in the following loop.
5440 */
5441 if (indexDesc->rd_indam->amsummarizing)
5443 else
5445
5446 /* Collect simple attribute references */
5447 for (i = 0; i < indexDesc->rd_index->indnatts; i++)
5448 {
5449 int attrnum = indexDesc->rd_index->indkey.values[i];
5450
5451 /*
5452 * Since we have covering indexes with non-key columns, we must
5453 * handle them accurately here. non-key columns must be added into
5454 * hotblockingattrs or summarizedattrs, since they are in index,
5455 * and update shouldn't miss them.
5456 *
5457 * Summarizing indexes do not block HOT, but do need to be updated
5458 * when the column value changes, thus require a separate
5459 * attribute bitmapset.
5460 *
5461 * Obviously, non-key columns couldn't be referenced by foreign
5462 * key or identity key. Hence we do not include them into
5463 * uindexattrs, pkindexattrs and idindexattrs bitmaps.
5464 */
5465 if (attrnum != 0)
5466 {
5469
5470 if (isKey && i < indexDesc->rd_index->indnkeyatts)
5473
5474 if (isPK && i < indexDesc->rd_index->indnkeyatts)
5477
5478 if (isIDKey && i < indexDesc->rd_index->indnkeyatts)
5481 }
5482 }
5483
5484 /* Collect all attributes used in expressions, too */
5486
5487 /* Collect all attributes in the index predicate, too */
5489
5491 }
5492
5493 /*
5494 * During one of the index_opens in the above loop, we might have received
5495 * a relcache flush event on this relcache entry, which might have been
5496 * signaling a change in the rel's index list. If so, we'd better start
5497 * over to ensure we deliver up-to-date attribute bitmaps.
5498 */
5501 relpkindex == relation->rd_pkindex &&
5502 relreplindex == relation->rd_replidindex)
5503 {
5504 /* Still the same index set, so proceed */
5507 }
5508 else
5509 {
5510 /* Gotta do it over ... might as well not leak memory */
5518
5519 goto restart;
5520 }
5521
5522 /* Don't leak the old values of these bitmaps, if any */
5523 relation->rd_attrsvalid = false;
5524 bms_free(relation->rd_keyattr);
5525 relation->rd_keyattr = NULL;
5526 bms_free(relation->rd_pkattr);
5527 relation->rd_pkattr = NULL;
5528 bms_free(relation->rd_idattr);
5529 relation->rd_idattr = NULL;
5530 bms_free(relation->rd_hotblockingattr);
5531 relation->rd_hotblockingattr = NULL;
5532 bms_free(relation->rd_summarizedattr);
5533 relation->rd_summarizedattr = NULL;
5534
5535 /*
5536 * Now save copies of the bitmaps in the relcache entry. We intentionally
5537 * set rd_attrsvalid last, because that's the one that signals validity of
5538 * the values; if we run out of memory before making that copy, we won't
5539 * leave the relcache entry looking like the other ones are valid but
5540 * empty.
5541 */
5543 relation->rd_keyattr = bms_copy(uindexattrs);
5544 relation->rd_pkattr = bms_copy(pkindexattrs);
5545 relation->rd_idattr = bms_copy(idindexattrs);
5548 relation->rd_attrsvalid = true;
5550
5551 /* We return our original working copy for caller to play with */
5552 switch (attrKind)
5553 {
5555 return uindexattrs;
5557 return pkindexattrs;
5559 return idindexattrs;
5561 return hotblockingattrs;
5563 return summarizedattrs;
5564 default:
5565 elog(ERROR, "unknown attrKind %u", attrKind);
5566 return NULL;
5567 }
5568}
bool equal(const void *a, const void *b)
Definition equalfuncs.c:223
void index_close(Relation relation, LOCKMODE lockmode)
Definition indexam.c:178
Relation index_open(Oid relationId, LOCKMODE lockmode)
Definition indexam.c:134
List * RelationGetIndexList(Relation relation)
Definition relcache.c:4846
Bitmapset * rd_keyattr
Definition rel.h:162
bool rd_attrsvalid
Definition rel.h:161
Bitmapset * rd_hotblockingattr
Definition rel.h:165
Oid rd_pkindex
Definition rel.h:153
Bitmapset * rd_summarizedattr
Definition rel.h:166
Bitmapset * rd_pkattr
Definition rel.h:163
void pull_varattnos(Node *node, Index varno, Bitmapset **varattnos)
Definition var.c:296

References AccessShareLock, bms_add_member(), bms_copy(), bms_free(), CacheMemoryContext, elog, equal(), ERROR, fb(), FirstLowInvalidHeapAttributeNumber, GetPgIndexDescriptor(), heap_getattr(), i, INDEX_ATTR_BITMAP_HOT_BLOCKING, INDEX_ATTR_BITMAP_IDENTITY_KEY, INDEX_ATTR_BITMAP_KEY, INDEX_ATTR_BITMAP_PRIMARY_KEY, INDEX_ATTR_BITMAP_SUMMARIZED, index_close(), index_open(), lfirst_oid, list_free(), MemoryContextSwitchTo(), NIL, pull_varattnos(), RelationData::rd_attrsvalid, RelationData::rd_hotblockingattr, RelationData::rd_idattr, RelationData::rd_keyattr, RelationData::rd_pkattr, RelationData::rd_pkindex, RelationData::rd_replidindex, RelationData::rd_summarizedattr, RelationGetForm, RelationGetIndexList(), stringToNode(), and TextDatumGetCString.

Referenced by dropconstraint_internal(), ExecUpdateLockMode(), ExtractReplicaIdentity(), GetParentedForeignKeyRefs(), heap_update(), logicalrep_rel_mark_updatable(), pub_contains_invalid_column(), pub_rf_contains_invalid_column(), and RelationFindDeletedTupleInfoSeq().

◆ RelationGetIndexExpressions()

List * RelationGetIndexExpressions ( Relation  relation)
extern

Definition at line 5107 of file relcache.c.

5108{
5109 List *result;
5111 bool isnull;
5112 char *exprsString;
5114
5115 /* Quick exit if we already computed the result. */
5116 if (relation->rd_indexprs)
5117 return copyObject(relation->rd_indexprs);
5118
5119 /* Quick exit if there is nothing to do. */
5120 if (relation->rd_indextuple == NULL ||
5122 return NIL;
5123
5124 /*
5125 * We build the tree we intend to return in the caller's context. After
5126 * successfully completing the work, we copy it into the relcache entry.
5127 * This avoids problems if we get some sort of error partway through.
5128 */
5132 &isnull);
5133 Assert(!isnull);
5137
5138 /*
5139 * Run the expressions through eval_const_expressions. This is not just an
5140 * optimization, but is necessary, because the planner will be comparing
5141 * them to similarly-processed qual clauses, and may fail to detect valid
5142 * matches without this. We must not use canonicalize_qual, however,
5143 * since these aren't qual expressions.
5144 */
5146
5147 /* May as well fix opfuncids too */
5149
5150 /* Now save a copy of the completed tree in the relcache entry. */
5152 relation->rd_indexprs = copyObject(result);
5154
5155 return result;
5156}
Node * eval_const_expressions(PlannerInfo *root, Node *node)
Definition clauses.c:2500
void fix_opfuncids(Node *node)
Definition nodeFuncs.c:1859
List * rd_indexprs
Definition rel.h:212

References Assert, copyObject, eval_const_expressions(), fb(), fix_opfuncids(), GetPgIndexDescriptor(), heap_attisnull(), heap_getattr(), MemoryContextSwitchTo(), NIL, pfree(), RelationData::rd_indexcxt, RelationData::rd_indexprs, RelationData::rd_indextuple, result, stringToNode(), and TextDatumGetCString.

Referenced by ATExecReplicaIdentity(), BuildIndexInfo(), get_relation_info(), GetIndexInputType(), index_unchanged_by_update(), infer_arbiter_indexes(), IsIndexCompatibleAsArbiter(), plan_create_index_workers(), ReindexRelationConcurrently(), statatt_get_index_expr(), and transformIndexConstraint().

◆ RelationGetIndexList()

List * RelationGetIndexList ( Relation  relation)
extern

Definition at line 4846 of file relcache.c.

4847{
4851 HeapTuple htup;
4852 List *result;
4853 List *oldlist;
4854 char replident = relation->rd_rel->relreplident;
4857 bool pkdeferrable = false;
4859
4860 /* Quick exit if we already computed the list. */
4861 if (relation->rd_indexvalid)
4862 return list_copy(relation->rd_indexlist);
4863
4864 /*
4865 * We build the list we intend to return (in the caller's context) while
4866 * doing the scan. After successfully completing the scan, we copy that
4867 * list into the relcache entry. This avoids cache-context memory leakage
4868 * if we get some sort of error partway through.
4869 */
4870 result = NIL;
4871
4872 /* Prepare to scan pg_index for entries having indrelid = this rel. */
4877
4880 NULL, 1, &skey);
4881
4883 {
4885
4886 /*
4887 * Ignore any indexes that are currently being dropped. This will
4888 * prevent them from being searched, inserted into, or considered in
4889 * HOT-safety decisions. It's unsafe to touch such an index at all
4890 * since its catalog entries could disappear at any instant.
4891 */
4892 if (!index->indislive)
4893 continue;
4894
4895 /* add index's OID to result list */
4896 result = lappend_oid(result, index->indexrelid);
4897
4898 /*
4899 * Non-unique or predicate indexes aren't interesting for either oid
4900 * indexes or replication identity indexes, so don't check them.
4901 * Deferred ones are not useful for replication identity either; but
4902 * we do include them if they are PKs.
4903 */
4904 if (!index->indisunique ||
4906 continue;
4907
4908 /*
4909 * Remember primary key index, if any. For regular tables we do this
4910 * only if the index is valid; but for partitioned tables, then we do
4911 * it even if it's invalid.
4912 *
4913 * The reason for returning invalid primary keys for partitioned
4914 * tables is that we need it to prevent drop of not-null constraints
4915 * that may underlie such a primary key, which is only a problem for
4916 * partitioned tables.
4917 */
4918 if (index->indisprimary &&
4919 (index->indisvalid ||
4920 relation->rd_rel->relkind == RELKIND_PARTITIONED_TABLE))
4921 {
4922 pkeyIndex = index->indexrelid;
4923 pkdeferrable = !index->indimmediate;
4924 }
4925
4926 if (!index->indimmediate)
4927 continue;
4928
4929 if (!index->indisvalid)
4930 continue;
4931
4932 /* remember explicitly chosen replica index */
4933 if (index->indisreplident)
4934 candidateIndex = index->indexrelid;
4935 }
4936
4938
4940
4941 /* Sort the result list into OID order, per API spec. */
4943
4944 /* Now save a copy of the completed list in the relcache entry. */
4946 oldlist = relation->rd_indexlist;
4947 relation->rd_indexlist = list_copy(result);
4948 relation->rd_pkindex = pkeyIndex;
4949 relation->rd_ispkdeferrable = pkdeferrable;
4951 relation->rd_replidindex = pkeyIndex;
4952 else if (replident == REPLICA_IDENTITY_INDEX && OidIsValid(candidateIndex))
4953 relation->rd_replidindex = candidateIndex;
4954 else
4955 relation->rd_replidindex = InvalidOid;
4956 relation->rd_indexvalid = true;
4958
4959 /* Don't leak the old list, if there is one */
4961
4962 return result;
4963}
void list_sort(List *list, list_sort_comparator cmp)
Definition list.c:1674
List * list_copy(const List *oldlist)
Definition list.c:1573
List * lappend_oid(List *list, Oid datum)
Definition list.c:375
int list_oid_cmp(const ListCell *p1, const ListCell *p2)
Definition list.c:1703
END_CATALOG_STRUCT typedef FormData_pg_index * Form_pg_index
Definition pg_index.h:74
bool rd_ispkdeferrable
Definition rel.h:154
bool rd_indexvalid
Definition rel.h:64
List * rd_indexlist
Definition rel.h:152
Definition type.h:97

References AccessShareLock, BTEqualStrategyNumber, CacheMemoryContext, fb(), Form_pg_index, GETSTRUCT(), heap_attisnull(), HeapTupleIsValid, InvalidOid, lappend_oid(), list_copy(), list_free(), list_oid_cmp(), list_sort(), MemoryContextSwitchTo(), NIL, ObjectIdGetDatum(), OidIsValid, RelationData::rd_indexlist, RelationData::rd_indexvalid, RelationData::rd_ispkdeferrable, RelationData::rd_pkindex, RelationData::rd_rel, RelationData::rd_replidindex, RelationGetRelid, result, ScanKeyInit(), systable_beginscan(), systable_endscan(), systable_getnext(), table_close(), and table_open().

Referenced by AlterIndexNamespaces(), apply_handle_delete_internal(), apply_handle_insert_internal(), applyPartitionIndexExtDeps(), ATExecChangeOwner(), ATExecSetTableSpace(), AttachPartitionEnsureIndexes(), calculate_indexes_size(), calculate_toast_table_size(), collectPartitionIndexExtDeps(), DefineIndex(), DefineRelation(), DetachPartitionFinalize(), determine_clustered_index(), do_analyze_rel(), ExecOpenIndices(), expandTableLikeClause(), FindUsableIndexForReplicaIdentityFull(), get_relation_info(), GetParentedForeignKeyRefs(), index_get_partition(), infer_arbiter_indexes(), mark_index_clustered(), rebuild_relation_finish_concurrent(), refresh_by_match_merge(), RefreshMatViewByOid(), reindex_relation(), ReindexRelationConcurrently(), relation_mark_replica_identity(), RelationGetIndexAttrBitmap(), RelationGetPrimaryKeyIndex(), RelationGetReplicaIndex(), relationHasPrimaryKey(), RelationTruncateIndexes(), SetIndexStorageProperties(), toast_open_indexes(), transformFkeyCheckAttrs(), transformFkeyGetPrimaryKey(), triggered_change_notification(), and vac_open_indexes().

◆ RelationGetIndexPredicate()

List * RelationGetIndexPredicate ( Relation  relation)
extern

Definition at line 5220 of file relcache.c.

5221{
5222 List *result;
5224 bool isnull;
5225 char *predString;
5227
5228 /* Quick exit if we already computed the result. */
5229 if (relation->rd_indpred)
5230 return copyObject(relation->rd_indpred);
5231
5232 /* Quick exit if there is nothing to do. */
5233 if (relation->rd_indextuple == NULL ||
5235 return NIL;
5236
5237 /*
5238 * We build the tree we intend to return in the caller's context. After
5239 * successfully completing the work, we copy it into the relcache entry.
5240 * This avoids problems if we get some sort of error partway through.
5241 */
5245 &isnull);
5246 Assert(!isnull);
5250
5251 /*
5252 * Run the expression through const-simplification and canonicalization.
5253 * This is not just an optimization, but is necessary, because the planner
5254 * will be comparing it to similarly-processed qual clauses, and may fail
5255 * to detect valid matches without this. This must match the processing
5256 * done to qual clauses in preprocess_expression()! (We can skip the
5257 * stuff involving subqueries, however, since we don't allow any in index
5258 * predicates.)
5259 */
5261
5262 result = (List *) canonicalize_qual((Expr *) result, false);
5263
5264 /* Also convert to implicit-AND format */
5266
5267 /* May as well fix opfuncids too */
5269
5270 /* Now save a copy of the completed tree in the relcache entry. */
5272 relation->rd_indpred = copyObject(result);
5274
5275 return result;
5276}
List * make_ands_implicit(Expr *clause)
Definition makefuncs.c:810
Expr * canonicalize_qual(Expr *qual, bool is_check)
Definition prepqual.c:293
List * rd_indpred
Definition rel.h:213

References Assert, canonicalize_qual(), copyObject, eval_const_expressions(), fb(), fix_opfuncids(), GetPgIndexDescriptor(), heap_attisnull(), heap_getattr(), make_ands_implicit(), MemoryContextSwitchTo(), NIL, pfree(), RelationData::rd_indexcxt, RelationData::rd_indextuple, RelationData::rd_indpred, result, stringToNode(), and TextDatumGetCString.

Referenced by ATExecReplicaIdentity(), BuildIndexInfo(), get_relation_info(), infer_arbiter_indexes(), is_usable_unique_index(), IsIndexCompatibleAsArbiter(), plan_create_index_workers(), ReindexRelationConcurrently(), and transformIndexConstraint().

◆ RelationGetPrimaryKeyIndex()

Oid RelationGetPrimaryKeyIndex ( Relation  relation,
bool  deferrable_ok 
)
extern

Definition at line 5057 of file relcache.c.

5058{
5059 List *ilist;
5060
5061 if (!relation->rd_indexvalid)
5062 {
5063 /* RelationGetIndexList does the heavy lifting. */
5064 ilist = RelationGetIndexList(relation);
5066 Assert(relation->rd_indexvalid);
5067 }
5068
5069 if (deferrable_ok)
5070 return relation->rd_pkindex;
5071 else if (relation->rd_ispkdeferrable)
5072 return InvalidOid;
5073 return relation->rd_pkindex;
5074}

References Assert, fb(), InvalidOid, list_free(), RelationData::rd_indexvalid, RelationData::rd_ispkdeferrable, RelationData::rd_pkindex, and RelationGetIndexList().

Referenced by dropconstraint_internal(), GetRelationIdentityOrPK(), and propgraph_element_get_key().

◆ RelationGetQualifiedRelationName()

char * RelationGetQualifiedRelationName ( Relation  rel)
extern

Definition at line 2144 of file relcache.c.

2145{
2148}
char * get_qualified_objname(Oid nspid, char *objname)
Definition lsyscache.c:3712

References get_qualified_objname(), RelationGetNamespace, and RelationGetRelationName.

Referenced by check_publication_add_relation().

◆ RelationGetReplicaIndex()

Oid RelationGetReplicaIndex ( Relation  relation)
extern

Definition at line 5082 of file relcache.c.

5083{
5084 List *ilist;
5085
5086 if (!relation->rd_indexvalid)
5087 {
5088 /* RelationGetIndexList does the heavy lifting. */
5089 ilist = RelationGetIndexList(relation);
5091 Assert(relation->rd_indexvalid);
5092 }
5093
5094 return relation->rd_replidindex;
5095}

References Assert, fb(), list_free(), RelationData::rd_indexvalid, RelationData::rd_replidindex, and RelationGetIndexList().

Referenced by CheckCmdReplicaIdentity(), GetRelationIdentityOrPK(), pg_get_replica_identity_index(), and RelationGetIdentityKeyBitmap().

◆ RelationGetStatExtList()

List * RelationGetStatExtList ( Relation  relation)
extern

Definition at line 4987 of file relcache.c.

4988{
4992 HeapTuple htup;
4993 List *result;
4994 List *oldlist;
4996
4997 /* Quick exit if we already computed the list. */
4998 if (relation->rd_statvalid != 0)
4999 return list_copy(relation->rd_statlist);
5000
5001 /*
5002 * We build the list we intend to return (in the caller's context) while
5003 * doing the scan. After successfully completing the scan, we copy that
5004 * list into the relcache entry. This avoids cache-context memory leakage
5005 * if we get some sort of error partway through.
5006 */
5007 result = NIL;
5008
5009 /*
5010 * Prepare to scan pg_statistic_ext for entries having stxrelid = this
5011 * rel.
5012 */
5017
5020 NULL, 1, &skey);
5021
5023 {
5024 Oid oid = ((Form_pg_statistic_ext) GETSTRUCT(htup))->oid;
5025
5026 result = lappend_oid(result, oid);
5027 }
5028
5030
5032
5033 /* Sort the result list into OID order, per API spec. */
5035
5036 /* Now save a copy of the completed list in the relcache entry. */
5038 oldlist = relation->rd_statlist;
5039 relation->rd_statlist = list_copy(result);
5040
5041 relation->rd_statvalid = true;
5043
5044 /* Don't leak the old list, if there is one */
5046
5047 return result;
5048}
END_CATALOG_STRUCT typedef FormData_pg_statistic_ext * Form_pg_statistic_ext
bool rd_statvalid
Definition rel.h:66
List * rd_statlist
Definition rel.h:158

References AccessShareLock, BTEqualStrategyNumber, CacheMemoryContext, fb(), Form_pg_statistic_ext, GETSTRUCT(), HeapTupleIsValid, lappend_oid(), list_copy(), list_free(), list_oid_cmp(), list_sort(), MemoryContextSwitchTo(), NIL, ObjectIdGetDatum(), RelationData::rd_statlist, RelationData::rd_statvalid, RelationGetRelid, result, ScanKeyInit(), systable_beginscan(), systable_endscan(), systable_getnext(), table_close(), and table_open().

Referenced by expandTableLikeClause(), and get_relation_statistics().

◆ RelationIdGetRelation()

Relation RelationIdGetRelation ( Oid  relationId)
extern

Definition at line 2091 of file relcache.c.

2092{
2093 Relation rd;
2094
2096
2097 /*
2098 * first try to find reldesc in the cache
2099 */
2101
2102 if (RelationIsValid(rd))
2103 {
2104 /* return NULL for dropped relations */
2105 if (rd->rd_droppedSubid != InvalidSubTransactionId)
2106 {
2107 Assert(!rd->rd_isvalid);
2108 return NULL;
2109 }
2110
2112 /* revalidate cache entry if necessary */
2113 if (!rd->rd_isvalid)
2114 {
2116
2117 /*
2118 * Normally entries need to be valid here, but before the relcache
2119 * has been initialized, not enough infrastructure exists to
2120 * perform pg_class lookups. The structure of such entries doesn't
2121 * change, but we still want to update the rd_rel entry. So
2122 * rd_isvalid = false is left in place for a later lookup.
2123 */
2124 Assert(rd->rd_isvalid ||
2125 (rd->rd_isnailed && !criticalRelcachesBuilt));
2126 }
2127 return rd;
2128 }
2129
2130 /*
2131 * no reldesc in the cache, so have RelationBuildDesc() build one and add
2132 * it.
2133 */
2135 if (RelationIsValid(rd))
2137 return rd;
2138}
static Relation RelationBuildDesc(Oid targetRelId, bool insertIt)
Definition relcache.c:1057
static void AssertCouldGetRelation(void)
Definition relcache.h:44

References Assert, AssertCouldGetRelation(), criticalRelcachesBuilt, fb(), InvalidSubTransactionId, RelationBuildDesc(), RelationIdCacheLookup, RelationIncrementReferenceCount(), RelationIsValid, and RelationRebuildRelation().

Referenced by check_and_init_gencol(), init_tuple_slot(), maybe_send_schema(), pgoutput_change(), pgoutput_column_list_init(), pgoutput_ensure_entry_cxt(), pgoutput_row_filter_init(), relation_open(), RelationGetIdentityKeyBitmap(), ReorderBufferProcessTXN(), ReorderBufferToastReplace(), and try_relation_open().

◆ RelationIdIsInInitFile()

bool RelationIdIsInInitFile ( Oid  relationId)
extern

Definition at line 6855 of file relcache.c.

6856{
6861 {
6862 /*
6863 * If this Assert fails, we don't need the applicable special case
6864 * anymore.
6865 */
6867 return true;
6868 }
6870}
bool RelationSupportsSysCache(Oid relid)
Definition syscache.c:763

References Assert, fb(), and RelationSupportsSysCache().

Referenced by RegisterRelcacheInvalidation(), and write_relcache_init_file().

◆ RelationInitIndexAccessInfo()

void RelationInitIndexAccessInfo ( Relation  relation)
extern

Definition at line 1438 of file relcache.c.

1439{
1440 HeapTuple tuple;
1445 bool isnull;
1450 MemoryContext oldcontext;
1451 int indnatts;
1452 int indnkeyatts;
1453 uint16 amsupport;
1454
1455 /*
1456 * Make a copy of the pg_index entry for the index. Since pg_index
1457 * contains variable-length and possibly-null fields, we have to do this
1458 * honestly rather than just treating it as a Form_pg_index struct.
1459 */
1462 if (!HeapTupleIsValid(tuple))
1463 elog(ERROR, "cache lookup failed for index %u",
1464 RelationGetRelid(relation));
1466 relation->rd_indextuple = heap_copytuple(tuple);
1467 relation->rd_index = (Form_pg_index) GETSTRUCT(relation->rd_indextuple);
1468 MemoryContextSwitchTo(oldcontext);
1469 ReleaseSysCache(tuple);
1470
1471 /*
1472 * Look up the index's access method, save the OID of its handler function
1473 */
1474 Assert(relation->rd_rel->relam != InvalidOid);
1475 tuple = SearchSysCache1(AMOID, ObjectIdGetDatum(relation->rd_rel->relam));
1476 if (!HeapTupleIsValid(tuple))
1477 elog(ERROR, "cache lookup failed for access method %u",
1478 relation->rd_rel->relam);
1479 aform = (Form_pg_am) GETSTRUCT(tuple);
1480 relation->rd_amhandler = aform->amhandler;
1481 ReleaseSysCache(tuple);
1482
1485 elog(ERROR, "relnatts disagrees with indnatts for index %u",
1486 RelationGetRelid(relation));
1488
1489 /*
1490 * Make the private context to hold index access info. The reason we need
1491 * a context, and not just a couple of pallocs, is so that we won't leak
1492 * any subsidiary info attached to fmgr lookup records.
1493 */
1495 "index info",
1497 relation->rd_indexcxt = indexcxt;
1499 RelationGetRelationName(relation));
1500
1501 /*
1502 * Now we can fetch the index AM's API struct
1503 */
1504 InitIndexAmRoutine(relation);
1505
1506 /*
1507 * Allocate arrays to hold data. Opclasses are not used for included
1508 * columns, so allocate them for indnkeyatts only.
1509 */
1510 relation->rd_opfamily = (Oid *)
1512 relation->rd_opcintype = (Oid *)
1514
1515 amsupport = relation->rd_indam->amsupport;
1516 if (amsupport > 0)
1517 {
1518 int nsupport = indnatts * amsupport;
1519
1520 relation->rd_support = (RegProcedure *)
1522 relation->rd_supportinfo = (FmgrInfo *)
1524 }
1525 else
1526 {
1527 relation->rd_support = NULL;
1528 relation->rd_supportinfo = NULL;
1529 }
1530
1531 relation->rd_indcollation = (Oid *)
1533
1534 relation->rd_indoption = (int16 *)
1536
1537 /*
1538 * indcollation cannot be referenced directly through the C struct,
1539 * because it comes after the variable-width indkey field. Must extract
1540 * the datum the hard way...
1541 */
1545 &isnull);
1546 Assert(!isnull);
1548 memcpy(relation->rd_indcollation, indcoll->values, indnkeyatts * sizeof(Oid));
1549
1550 /*
1551 * indclass cannot be referenced directly through the C struct, because it
1552 * comes after the variable-width indkey field. Must extract the datum
1553 * the hard way...
1554 */
1558 &isnull);
1559 Assert(!isnull);
1561
1562 /*
1563 * Fill the support procedure OID array, as well as the info about
1564 * opfamilies and opclass input types. (aminfo and supportinfo are left
1565 * as zeroes, and are filled on-the-fly when used)
1566 */
1568 relation->rd_opfamily, relation->rd_opcintype,
1569 amsupport, indnkeyatts);
1570
1571 /*
1572 * Similarly extract indoption and copy it to the cache entry
1573 */
1577 &isnull);
1578 Assert(!isnull);
1580 memcpy(relation->rd_indoption, indoption->values, indnkeyatts * sizeof(int16));
1581
1582 (void) RelationGetIndexAttOptions(relation, false);
1583
1584 /*
1585 * expressions, predicate, exclusion caches will be filled later
1586 */
1587 relation->rd_indexprs = NIL;
1588 relation->rd_indpred = NIL;
1589 relation->rd_exclops = NULL;
1590 relation->rd_exclprocs = NULL;
1591 relation->rd_exclstrats = NULL;
1592 relation->rd_amcache = NULL;
1593}
int16_t int16
Definition c.h:675
regproc RegProcedure
Definition c.h:790
HeapTuple heap_copytuple(HeapTuple tuple)
Definition heaptuple.c:686
void * MemoryContextAllocZero(MemoryContext context, Size size)
Definition mcxt.c:1269
#define AllocSetContextCreate
Definition memutils.h:129
#define ALLOCSET_SMALL_SIZES
Definition memutils.h:170
#define MemoryContextCopyAndSetIdentifier(cxt, id)
Definition memutils.h:101
END_CATALOG_STRUCT typedef FormData_pg_am * Form_pg_am
Definition pg_am.h:52
#define IndexRelationGetNumberOfAttributes(relation)
Definition rel.h:528
static void InitIndexAmRoutine(Relation relation)
Definition relcache.c:1419
static void IndexSupportInitialize(oidvector *indclass, RegProcedure *indexSupport, Oid *opFamily, Oid *opcInType, StrategyNumber maxSupportNumber, AttrNumber maxAttributeNumber)
Definition relcache.c:1609
bytea ** RelationGetIndexAttOptions(Relation relation, bool copy)
Definition relcache.c:6021
uint16 amsupport
Definition amapi.h:243
const struct IndexAmRoutine * rd_indam
Definition rel.h:206
RegProcedure * rd_support
Definition rel.h:209
Oid * rd_opcintype
Definition rel.h:208
int16 * rd_indoption
Definition rel.h:211
void * rd_amcache
Definition rel.h:229
Oid rd_amhandler
Definition rel.h:184
struct FmgrInfo * rd_supportinfo
Definition rel.h:210
Oid * rd_indcollation
Definition rel.h:217
Definition c.h:871

References ALLOCSET_SMALL_SIZES, AllocSetContextCreate, IndexAmRoutine::amsupport, Assert, CacheMemoryContext, DatumGetPointer(), elog, ERROR, fastgetattr(), fb(), Form_pg_am, Form_pg_index, GetPgIndexDescriptor(), GETSTRUCT(), heap_copytuple(), HeapTupleIsValid, IndexRelationGetNumberOfAttributes, IndexRelationGetNumberOfKeyAttributes, IndexSupportInitialize(), InitIndexAmRoutine(), InvalidOid, memcpy(), MemoryContextAllocZero(), MemoryContextCopyAndSetIdentifier, MemoryContextSwitchTo(), NIL, ObjectIdGetDatum(), RelationData::rd_amcache, RelationData::rd_amhandler, RelationData::rd_exclops, RelationData::rd_exclprocs, RelationData::rd_exclstrats, RelationData::rd_indam, RelationData::rd_indcollation, RelationData::rd_index, RelationData::rd_indexcxt, RelationData::rd_indexprs, RelationData::rd_indextuple, RelationData::rd_indoption, RelationData::rd_indpred, RelationData::rd_opcintype, RelationData::rd_opfamily, RelationData::rd_rel, RelationData::rd_support, RelationData::rd_supportinfo, RelationGetIndexAttOptions(), RelationGetNumberOfAttributes, RelationGetRelationName, RelationGetRelid, ReleaseSysCache(), and SearchSysCache1().

Referenced by index_create(), and RelationBuildDesc().

◆ RelationInitTableAccessMethod()

void RelationInitTableAccessMethod ( Relation  relation)
extern

Definition at line 1822 of file relcache.c.

1823{
1824 HeapTuple tuple;
1826
1827 if (relation->rd_rel->relkind == RELKIND_SEQUENCE)
1828 {
1829 /*
1830 * Sequences are currently accessed like heap tables, but it doesn't
1831 * seem prudent to show that in the catalog. So just overwrite it
1832 * here.
1833 */
1834 Assert(relation->rd_rel->relam == InvalidOid);
1836 }
1837 else if (IsCatalogRelation(relation))
1838 {
1839 /*
1840 * Avoid doing a syscache lookup for catalog tables.
1841 */
1842 Assert(relation->rd_rel->relam == HEAP_TABLE_AM_OID);
1844 }
1845 else
1846 {
1847 /*
1848 * Look up the table access method, save the OID of its handler
1849 * function.
1850 */
1851 Assert(relation->rd_rel->relam != InvalidOid);
1852 tuple = SearchSysCache1(AMOID,
1853 ObjectIdGetDatum(relation->rd_rel->relam));
1854 if (!HeapTupleIsValid(tuple))
1855 elog(ERROR, "cache lookup failed for access method %u",
1856 relation->rd_rel->relam);
1857 aform = (Form_pg_am) GETSTRUCT(tuple);
1858 relation->rd_amhandler = aform->amhandler;
1859 ReleaseSysCache(tuple);
1860 }
1861
1862 /*
1863 * Now we can fetch the table AM's API struct
1864 */
1865 InitTableAmRoutine(relation);
1866}
bool IsCatalogRelation(Relation relation)
Definition catalog.c:104
static void InitTableAmRoutine(Relation relation)
Definition relcache.c:1813

References Assert, elog, ERROR, fb(), Form_pg_am, GETSTRUCT(), HeapTupleIsValid, InitTableAmRoutine(), InvalidOid, IsCatalogRelation(), ObjectIdGetDatum(), RelationData::rd_amhandler, RelationData::rd_rel, ReleaseSysCache(), and SearchSysCache1().

Referenced by load_relcache_init_file(), RelationBuildDesc(), RelationBuildLocalRelation(), and RelationCacheInitializePhase3().

◆ RelationSetNewRelfilenumber()

void RelationSetNewRelfilenumber ( Relation  relation,
char  persistence 
)
extern

Definition at line 3777 of file relcache.c.

3778{
3782 HeapTuple tuple;
3787
3788 if (!IsBinaryUpgrade)
3789 {
3790 /* Allocate a new relfilenumber */
3791 newrelfilenumber = GetNewRelFileNumber(relation->rd_rel->reltablespace,
3792 NULL, persistence);
3793 }
3794 else if (relation->rd_rel->relkind == RELKIND_INDEX)
3795 {
3797 ereport(ERROR,
3799 errmsg("index relfilenumber value not set when in binary upgrade mode")));
3800
3803 }
3804 else if (relation->rd_rel->relkind == RELKIND_RELATION)
3805 {
3807 ereport(ERROR,
3809 errmsg("heap relfilenumber value not set when in binary upgrade mode")));
3810
3813 }
3814 else
3815 ereport(ERROR,
3817 errmsg("unexpected request for new relfilenumber in binary upgrade mode")));
3818
3819 /*
3820 * Get a writable copy of the pg_class tuple for the given relation.
3821 */
3823
3826 if (!HeapTupleIsValid(tuple))
3827 elog(ERROR, "could not find tuple for relation %u",
3828 RelationGetRelid(relation));
3829 otid = tuple->t_self;
3831
3832 /*
3833 * Schedule unlinking of the old storage at transaction commit, except
3834 * when performing a binary upgrade, when we must do it immediately.
3835 */
3836 if (IsBinaryUpgrade)
3837 {
3838 SMgrRelation srel;
3839
3840 /*
3841 * During a binary upgrade, we use this code path to ensure that
3842 * pg_largeobject and its index have the same relfilenumbers as in the
3843 * old cluster. This is necessary because pg_upgrade treats
3844 * pg_largeobject like a user table, not a system table. It is however
3845 * possible that a table or index may need to end up with the same
3846 * relfilenumber in the new cluster as what it had in the old cluster.
3847 * Hence, we can't wait until commit time to remove the old storage.
3848 *
3849 * In general, this function needs to have transactional semantics,
3850 * and removing the old storage before commit time surely isn't.
3851 * However, it doesn't really matter, because if a binary upgrade
3852 * fails at this stage, the new cluster will need to be recreated
3853 * anyway.
3854 */
3855 srel = smgropen(relation->rd_locator, relation->rd_backend);
3856 smgrdounlinkall(&srel, 1, false);
3857 smgrclose(srel);
3858 }
3859 else
3860 {
3861 /* Not a binary upgrade, so just schedule it to happen later. */
3862 RelationDropStorage(relation);
3863 }
3864
3865 /*
3866 * Create storage for the main fork of the new relfilenumber. If it's a
3867 * table-like object, call into the table AM to do so, which'll also
3868 * create the table's init fork if needed.
3869 *
3870 * NOTE: If relevant for the AM, any conflict in relfilenumber value will
3871 * be caught here, if GetNewRelFileNumber messes up for any reason.
3872 */
3873 newrlocator = relation->rd_locator;
3875
3876 if (RELKIND_HAS_TABLE_AM(relation->rd_rel->relkind))
3877 {
3879 persistence,
3880 &freezeXid, &minmulti);
3881 }
3882 else if (RELKIND_HAS_STORAGE(relation->rd_rel->relkind))
3883 {
3884 /* handle these directly, at least for now */
3885 SMgrRelation srel;
3886
3887 srel = RelationCreateStorage(newrlocator, persistence, true);
3888 smgrclose(srel);
3889 }
3890 else
3891 {
3892 /* we shouldn't be called for anything else */
3893 elog(ERROR, "relation \"%s\" does not have storage",
3894 RelationGetRelationName(relation));
3895 }
3896
3897 /*
3898 * If we're dealing with a mapped index, pg_class.relfilenode doesn't
3899 * change; instead we have to send the update to the relation mapper.
3900 *
3901 * For mapped indexes, we don't actually change the pg_class entry at all;
3902 * this is essential when reindexing pg_class itself. That leaves us with
3903 * possibly-inaccurate values of relpages etc, but those will be fixed up
3904 * later.
3905 */
3906 if (RelationIsMapped(relation))
3907 {
3908 /* This case is only supported for indexes */
3909 Assert(relation->rd_rel->relkind == RELKIND_INDEX);
3910
3911 /* Since we're not updating pg_class, these had better not change */
3912 Assert(classform->relfrozenxid == freezeXid);
3913 Assert(classform->relminmxid == minmulti);
3914 Assert(classform->relpersistence == persistence);
3915
3916 /*
3917 * In some code paths it's possible that the tuple update we'd
3918 * otherwise do here is the only thing that would assign an XID for
3919 * the current transaction. However, we must have an XID to delete
3920 * files, so make sure one is assigned.
3921 */
3923
3924 /* Do the deed */
3927 relation->rd_rel->relisshared,
3928 false);
3929
3930 /* Since we're not updating pg_class, must trigger inval manually */
3931 CacheInvalidateRelcache(relation);
3932 }
3933 else
3934 {
3935 /* Normal case, update the pg_class entry */
3936 classform->relfilenode = newrelfilenumber;
3937
3938 /* relpages etc. never change for sequences */
3939 if (relation->rd_rel->relkind != RELKIND_SEQUENCE)
3940 {
3941 classform->relpages = 0; /* it's empty until further notice */
3942 classform->reltuples = -1;
3943 classform->relallvisible = 0;
3944 classform->relallfrozen = 0;
3945 }
3946 classform->relfrozenxid = freezeXid;
3947 classform->relminmxid = minmulti;
3948 classform->relpersistence = persistence;
3949
3951 }
3952
3954 heap_freetuple(tuple);
3955
3957
3958 /*
3959 * Make the pg_class row change or relation map change visible. This will
3960 * cause the relcache entry to get updated, too.
3961 */
3963
3965}
TransactionId MultiXactId
Definition c.h:802
uint32 TransactionId
Definition c.h:792
RelFileNumber GetNewRelFileNumber(Oid reltablespace, Relation pg_class, char relpersistence)
Definition catalog.c:557
bool IsBinaryUpgrade
Definition globals.c:123
RelFileNumber binary_upgrade_next_heap_pg_class_relfilenumber
Definition heap.c:83
void heap_freetuple(HeapTuple htup)
Definition heaptuple.c:1372
RelFileNumber binary_upgrade_next_index_pg_class_relfilenumber
Definition index.c:87
void CatalogTupleUpdate(Relation heapRel, const ItemPointerData *otid, HeapTuple tup)
Definition indexing.c:313
void CacheInvalidateRelcache(Relation relation)
Definition inval.c:1632
void UnlockTuple(Relation relation, const ItemPointerData *tid, LOCKMODE lockmode)
Definition lmgr.c:601
#define InplaceUpdateTupleLock
Definition lockdefs.h:48
#define RowExclusiveLock
Definition lockdefs.h:38
#define InvalidMultiXactId
Definition multixact.h:25
static char * errmsg
void RelationAssumeNewRelfilelocator(Relation relation)
Definition relcache.c:3980
Oid RelFileNumber
Definition relpath.h:25
SMgrRelation smgropen(RelFileLocator rlocator, ProcNumber backend)
Definition smgr.c:240
void smgrclose(SMgrRelation reln)
Definition smgr.c:374
void smgrdounlinkall(SMgrRelation *rels, int nrels, bool isRedo)
Definition smgr.c:538
SMgrRelation RelationCreateStorage(RelFileLocator rlocator, char relpersistence, bool register_delete)
Definition storage.c:122
void RelationDropStorage(Relation rel)
Definition storage.c:207
ItemPointerData t_self
Definition htup.h:65
RelFileNumber relNumber
RelFileLocator rd_locator
Definition rel.h:57
HeapTuple SearchSysCacheLockedCopy1(SysCacheIdentifier cacheId, Datum key1)
Definition syscache.c:400
static void table_relation_set_new_filelocator(Relation rel, const RelFileLocator *newrlocator, char persistence, TransactionId *freezeXid, MultiXactId *minmulti)
Definition tableam.h:1687
#define InvalidTransactionId
Definition transam.h:31
void CommandCounterIncrement(void)
Definition xact.c:1130
TransactionId GetCurrentTransactionId(void)
Definition xact.c:456

References Assert, binary_upgrade_next_heap_pg_class_relfilenumber, binary_upgrade_next_index_pg_class_relfilenumber, CacheInvalidateRelcache(), CatalogTupleUpdate(), CommandCounterIncrement(), elog, ereport, errcode(), errmsg, ERROR, fb(), GetCurrentTransactionId(), GetNewRelFileNumber(), GETSTRUCT(), heap_freetuple(), HeapTupleIsValid, InplaceUpdateTupleLock, InvalidMultiXactId, InvalidOid, InvalidTransactionId, IsBinaryUpgrade, ObjectIdGetDatum(), OidIsValid, RelationData::rd_backend, RelationData::rd_locator, RelationData::rd_rel, RelationAssumeNewRelfilelocator(), RelationCreateStorage(), RelationDropStorage(), RelationGetRelationName, RelationGetRelid, RelationIsMapped, RelationMapUpdateMap(), RelFileLocator::relNumber, RowExclusiveLock, SearchSysCacheLockedCopy1(), smgrclose(), smgrdounlinkall(), smgropen(), HeapTupleData::t_self, table_close(), table_open(), table_relation_set_new_filelocator(), and UnlockTuple().

Referenced by AlterSequence(), ExecuteTruncateGuts(), reindex_index(), ResetSequence(), and SequenceChangePersistence().

Variable Documentation

◆ criticalRelcachesBuilt

◆ criticalSharedRelcachesBuilt