rel.h

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/*-------------------------------------------------------------------------
 *
 * rel.h
 *    POSTGRES relation descriptor (a/k/a relcache entry) definitions.
 *
 *
 * Portions Copyright (c) 1996-2019, PostgreSQL Global Development Group
 * Portions Copyright (c) 1994, Regents of the University of California
 *
 * src/include/utils/rel.h
 *
 *-------------------------------------------------------------------------
 */
#ifndef REL_H
#define REL_H

#include "access/tupdesc.h"
#include "access/xlog.h"
#include "catalog/pg_class.h"
#include "catalog/pg_index.h"
#include "catalog/pg_publication.h"
#include "nodes/bitmapset.h"
#include "rewrite/prs2lock.h"
#include "storage/block.h"
#include "storage/relfilenode.h"
#include "utils/relcache.h"
#include "utils/reltrigger.h"


/*
 * LockRelId and LockInfo really belong to lmgr.h, but it's more convenient
 * to declare them here so we can have a LockInfoData field in a Relation.
 */

typedef struct LockRelId
{
    Oid         relId;          /* a relation identifier */
    Oid         dbId;           /* a database identifier */
} LockRelId;

typedef struct LockInfoData
{
    LockRelId   lockRelId;
} LockInfoData;

typedef LockInfoData *LockInfo;

/*
 * Here are the contents of a relation cache entry.
 */

typedef struct RelationData
{
    RelFileNode rd_node;        /* relation physical identifier */
    /* use "struct" here to avoid needing to include smgr.h: */
    struct SMgrRelationData *rd_smgr;   /* cached file handle, or NULL */
    int         rd_refcnt;      /* reference count */
    BackendId   rd_backend;     /* owning backend id, if temporary relation */
    bool        rd_islocaltemp; /* rel is a temp rel of this session */
    bool        rd_isnailed;    /* rel is nailed in cache */
    bool        rd_isvalid;     /* relcache entry is valid */
    bool        rd_indexvalid;  /* is rd_indexlist valid? (also rd_pkindex and
                                 * rd_replidindex) */
    bool        rd_statvalid;   /* is rd_statlist valid? */

    /*
     * rd_createSubid is the ID of the highest subtransaction the rel has
     * survived into; or zero if the rel was not created in the current top
     * transaction.  This can be now be relied on, whereas previously it could
     * be "forgotten" in earlier releases. Likewise, rd_newRelfilenodeSubid is
     * the ID of the highest subtransaction the relfilenode change has
     * survived into, or zero if not changed in the current transaction (or we
     * have forgotten changing it). rd_newRelfilenodeSubid can be forgotten
     * when a relation has multiple new relfilenodes within a single
     * transaction, with one of them occurring in a subsequently aborted
     * subtransaction, e.g. BEGIN; TRUNCATE t; SAVEPOINT save; TRUNCATE t;
     * ROLLBACK TO save; -- rd_newRelfilenodeSubid is now forgotten
     */
    SubTransactionId rd_createSubid;    /* rel was created in current xact */
    SubTransactionId rd_newRelfilenodeSubid;    /* new relfilenode assigned in
                                                 * current xact */

    Form_pg_class rd_rel;       /* RELATION tuple */
    TupleDesc   rd_att;         /* tuple descriptor */
    Oid         rd_id;          /* relation's object id */
    LockInfoData rd_lockInfo;   /* lock mgr's info for locking relation */
    RuleLock   *rd_rules;       /* rewrite rules */
    MemoryContext rd_rulescxt;  /* private memory cxt for rd_rules, if any */
    TriggerDesc *trigdesc;      /* Trigger info, or NULL if rel has none */
    /* use "struct" here to avoid needing to include rowsecurity.h: */
    struct RowSecurityDesc *rd_rsdesc;  /* row security policies, or NULL */

    /* data managed by RelationGetFKeyList: */
    List       *rd_fkeylist;    /* list of ForeignKeyCacheInfo (see below) */
    bool        rd_fkeyvalid;   /* true if list has been computed */

    struct PartitionKeyData *rd_partkey;    /* partition key, or NULL */
    MemoryContext rd_partkeycxt;    /* private context for rd_partkey, if any */
    struct PartitionDescData *rd_partdesc;  /* partitions, or NULL */
    MemoryContext rd_pdcxt;     /* private context for rd_partdesc, if any */
    List       *rd_partcheck;   /* partition CHECK quals */
    bool        rd_partcheckvalid;  /* true if list has been computed */
    MemoryContext rd_partcheckcxt;  /* private cxt for rd_partcheck, if any */

    /* data managed by RelationGetIndexList: */
    List       *rd_indexlist;   /* list of OIDs of indexes on relation */
    Oid         rd_pkindex;     /* OID of primary key, if any */
    Oid         rd_replidindex; /* OID of replica identity index, if any */

    /* data managed by RelationGetStatExtList: */
    List       *rd_statlist;    /* list of OIDs of extended stats */

    /* data managed by RelationGetIndexAttrBitmap: */
    Bitmapset  *rd_indexattr;   /* identifies columns used in indexes */
    Bitmapset  *rd_keyattr;     /* cols that can be ref'd by foreign keys */
    Bitmapset  *rd_pkattr;      /* cols included in primary key */
    Bitmapset  *rd_idattr;      /* included in replica identity index */

    PublicationActions *rd_pubactions;  /* publication actions */

    /*
     * rd_options is set whenever rd_rel is loaded into the relcache entry.
     * Note that you can NOT look into rd_rel for this data.  NULL means "use
     * defaults".
     */
    bytea      *rd_options;     /* parsed pg_class.reloptions */

    /*
     * Oid of the handler for this relation. For an index this is a function
     * returning IndexAmRoutine, for table like relations a function returning
     * TableAmRoutine.  This is stored separately from rd_indam, rd_tableam as
     * its lookup requires syscache access, but during relcache bootstrap we
     * need to be able to initialize rd_tableam without syscache lookups.
     */
    Oid         rd_amhandler;   /* OID of index AM's handler function */

    /*
     * Table access method.
     */
    const struct TableAmRoutine *rd_tableam;

    /* These are non-NULL only for an index relation: */
    Form_pg_index rd_index;     /* pg_index tuple describing this index */
    /* use "struct" here to avoid needing to include htup.h: */
    struct HeapTupleData *rd_indextuple;    /* all of pg_index tuple */

    /*
     * index access support info (used only for an index relation)
     *
     * Note: only default support procs for each opclass are cached, namely
     * those with lefttype and righttype equal to the opclass's opcintype. The
     * arrays are indexed by support function number, which is a sufficient
     * identifier given that restriction.
     */
    MemoryContext rd_indexcxt;  /* private memory cxt for this stuff */
    /* use "struct" here to avoid needing to include amapi.h: */
    struct IndexAmRoutine *rd_indam;    /* index AM's API struct */
    Oid        *rd_opfamily;    /* OIDs of op families for each index col */
    Oid        *rd_opcintype;   /* OIDs of opclass declared input data types */
    RegProcedure *rd_support;   /* OIDs of support procedures */
    struct FmgrInfo *rd_supportinfo; /* lookup info for support procedures */
    int16      *rd_indoption;   /* per-column AM-specific flags */
    List       *rd_indexprs;    /* index expression trees, if any */
    List       *rd_indpred;     /* index predicate tree, if any */
    Oid        *rd_exclops;     /* OIDs of exclusion operators, if any */
    Oid        *rd_exclprocs;   /* OIDs of exclusion ops' procs, if any */
    uint16     *rd_exclstrats;  /* exclusion ops' strategy numbers, if any */
    Oid        *rd_indcollation;    /* OIDs of index collations */

    /*
     * rd_amcache is available for index and table AMs to cache private data
     * about the relation.  This must be just a cache since it may get reset
     * at any time (in particular, it will get reset by a relcache inval
     * message for the relation).  If used, it must point to a single memory
     * chunk palloc'd in CacheMemoryContext, or in rd_indexcxt for an index
     * relation.  A relcache reset will include freeing that chunk and setting
     * rd_amcache = NULL.
     */
    void       *rd_amcache;     /* available for use by index/table AM */

    /*
     * foreign-table support
     *
     * rd_fdwroutine must point to a single memory chunk palloc'd in
     * CacheMemoryContext.  It will be freed and reset to NULL on a relcache
     * reset.
     */

    /* use "struct" here to avoid needing to include fdwapi.h: */
    struct FdwRoutine *rd_fdwroutine;   /* cached function pointers, or NULL */

    /*
     * Hack for CLUSTER, rewriting ALTER TABLE, etc: when writing a new
     * version of a table, we need to make any toast pointers inserted into it
     * have the existing toast table's OID, not the OID of the transient toast
     * table.  If rd_toastoid isn't InvalidOid, it is the OID to place in
     * toast pointers inserted into this rel.  (Note it's set on the new
     * version of the main heap, not the toast table itself.)  This also
     * causes toast_save_datum() to try to preserve toast value OIDs.
     */
    Oid         rd_toastoid;    /* Real TOAST table's OID, or InvalidOid */

    /* use "struct" here to avoid needing to include pgstat.h: */
    struct PgStat_TableStatus *pgstat_info; /* statistics collection area */
} RelationData;


/*
 * ForeignKeyCacheInfo
 *      Information the relcache can cache about foreign key constraints
 *
 * This is basically just an image of relevant columns from pg_constraint.
 * We make it a subclass of Node so that copyObject() can be used on a list
 * of these, but we also ensure it is a "flat" object without substructure,
 * so that list_free_deep() is sufficient to free such a list.
 * The per-FK-column arrays can be fixed-size because we allow at most
 * INDEX_MAX_KEYS columns in a foreign key constraint.
 *
 * Currently, we mostly cache fields of interest to the planner, but the set
 * of fields has already grown the constraint OID for other uses.
 */
typedef struct ForeignKeyCacheInfo
{
    NodeTag     type;
    Oid         conoid;         /* oid of the constraint itself */
    Oid         conrelid;       /* relation constrained by the foreign key */
    Oid         confrelid;      /* relation referenced by the foreign key */
    int         nkeys;          /* number of columns in the foreign key */
    /* these arrays each have nkeys valid entries: */
    AttrNumber  conkey[INDEX_MAX_KEYS]; /* cols in referencing table */
    AttrNumber  confkey[INDEX_MAX_KEYS];    /* cols in referenced table */
    Oid         conpfeqop[INDEX_MAX_KEYS];  /* PK = FK operator OIDs */
} ForeignKeyCacheInfo;


/*
 * StdRdOptions
 *      Standard contents of rd_options for heaps and generic indexes.
 *
 * RelationGetFillFactor() and RelationGetTargetPageFreeSpace() can only
 * be applied to relations that use this format or a superset for
 * private options data.
 */
 /* autovacuum-related reloptions. */
typedef struct AutoVacOpts
{
    bool        enabled;
    int         vacuum_threshold;
    int         analyze_threshold;
    int         vacuum_cost_limit;
    int         freeze_min_age;
    int         freeze_max_age;
    int         freeze_table_age;
    int         multixact_freeze_min_age;
    int         multixact_freeze_max_age;
    int         multixact_freeze_table_age;
    int         log_min_duration;
    float8      vacuum_cost_delay;
    float8      vacuum_scale_factor;
    float8      analyze_scale_factor;
} AutoVacOpts;

typedef struct StdRdOptions
{
    int32       vl_len_;        /* varlena header (do not touch directly!) */
    int         fillfactor;     /* page fill factor in percent (0..100) */
    /* fraction of newly inserted tuples prior to trigger index cleanup */
    float8      vacuum_cleanup_index_scale_factor;
    int         toast_tuple_target; /* target for tuple toasting */
    AutoVacOpts autovacuum;     /* autovacuum-related options */
    bool        user_catalog_table; /* use as an additional catalog relation */
    int         parallel_workers;   /* max number of parallel workers */
    bool        vacuum_index_cleanup;   /* enables index vacuuming and cleanup */
    bool        vacuum_truncate;    /* enables vacuum to truncate a relation */
} StdRdOptions;

#define HEAP_MIN_FILLFACTOR         10
#define HEAP_DEFAULT_FILLFACTOR     100

/*
 * RelationGetToastTupleTarget
 *      Returns the relation's toast_tuple_target.  Note multiple eval of argument!
 */
#define RelationGetToastTupleTarget(relation, defaulttarg) \
    ((relation)->rd_options ? \
     ((StdRdOptions *) (relation)->rd_options)->toast_tuple_target : (defaulttarg))

/*
 * RelationGetFillFactor
 *      Returns the relation's fillfactor.  Note multiple eval of argument!
 */
#define RelationGetFillFactor(relation, defaultff) \
    ((relation)->rd_options ? \
     ((StdRdOptions *) (relation)->rd_options)->fillfactor : (defaultff))

/*
 * RelationGetTargetPageUsage
 *      Returns the relation's desired space usage per page in bytes.
 */
#define RelationGetTargetPageUsage(relation, defaultff) \
    (BLCKSZ * RelationGetFillFactor(relation, defaultff) / 100)

/*
 * RelationGetTargetPageFreeSpace
 *      Returns the relation's desired freespace per page in bytes.
 */
#define RelationGetTargetPageFreeSpace(relation, defaultff) \
    (BLCKSZ * (100 - RelationGetFillFactor(relation, defaultff)) / 100)

/*
 * RelationIsUsedAsCatalogTable
 *      Returns whether the relation should be treated as a catalog table
 *      from the pov of logical decoding.  Note multiple eval of argument!
 */
#define RelationIsUsedAsCatalogTable(relation)  \
    ((relation)->rd_options && \
     ((relation)->rd_rel->relkind == RELKIND_RELATION || \
      (relation)->rd_rel->relkind == RELKIND_MATVIEW) ? \
     ((StdRdOptions *) (relation)->rd_options)->user_catalog_table : false)

/*
 * RelationGetParallelWorkers
 *      Returns the relation's parallel_workers reloption setting.
 *      Note multiple eval of argument!
 */
#define RelationGetParallelWorkers(relation, defaultpw) \
    ((relation)->rd_options ? \
     ((StdRdOptions *) (relation)->rd_options)->parallel_workers : (defaultpw))


/*
 * ViewOptions
 *      Contents of rd_options for views
 */
typedef struct ViewOptions
{
    int32       vl_len_;        /* varlena header (do not touch directly!) */
    bool        security_barrier;
    int         check_option_offset;
} ViewOptions;

/*
 * RelationIsSecurityView
 *      Returns whether the relation is security view, or not.  Note multiple
 *      eval of argument!
 */
#define RelationIsSecurityView(relation)    \
    ((relation)->rd_options ?               \
     ((ViewOptions *) (relation)->rd_options)->security_barrier : false)

/*
 * RelationHasCheckOption
 *      Returns true if the relation is a view defined with either the local
 *      or the cascaded check option.  Note multiple eval of argument!
 */
#define RelationHasCheckOption(relation)                                    \
    ((relation)->rd_options &&                                              \
     ((ViewOptions *) (relation)->rd_options)->check_option_offset != 0)

/*
 * RelationHasLocalCheckOption
 *      Returns true if the relation is a view defined with the local check
 *      option.  Note multiple eval of argument!
 */
#define RelationHasLocalCheckOption(relation)                               \
    ((relation)->rd_options &&                                              \
     ((ViewOptions *) (relation)->rd_options)->check_option_offset != 0 ?   \
     strcmp((char *) (relation)->rd_options +                               \
            ((ViewOptions *) (relation)->rd_options)->check_option_offset,  \
            "local") == 0 : false)

/*
 * RelationHasCascadedCheckOption
 *      Returns true if the relation is a view defined with the cascaded check
 *      option.  Note multiple eval of argument!
 */
#define RelationHasCascadedCheckOption(relation)                            \
    ((relation)->rd_options &&                                              \
     ((ViewOptions *) (relation)->rd_options)->check_option_offset != 0 ?   \
     strcmp((char *) (relation)->rd_options +                               \
            ((ViewOptions *) (relation)->rd_options)->check_option_offset,  \
            "cascaded") == 0 : false)


/*
 * RelationIsValid
 *      True iff relation descriptor is valid.
 */
#define RelationIsValid(relation) PointerIsValid(relation)

#define InvalidRelation ((Relation) NULL)

/*
 * RelationHasReferenceCountZero
 *      True iff relation reference count is zero.
 *
 * Note:
 *      Assumes relation descriptor is valid.
 */
#define RelationHasReferenceCountZero(relation) \
        ((bool)((relation)->rd_refcnt == 0))

/*
 * RelationGetForm
 *      Returns pg_class tuple for a relation.
 *
 * Note:
 *      Assumes relation descriptor is valid.
 */
#define RelationGetForm(relation) ((relation)->rd_rel)

/*
 * RelationGetRelid
 *      Returns the OID of the relation
 */
#define RelationGetRelid(relation) ((relation)->rd_id)

/*
 * RelationGetNumberOfAttributes
 *      Returns the total number of attributes in a relation.
 */
#define RelationGetNumberOfAttributes(relation) ((relation)->rd_rel->relnatts)

/*
 * IndexRelationGetNumberOfAttributes
 *      Returns the number of attributes in an index.
 */
#define IndexRelationGetNumberOfAttributes(relation) \
        ((relation)->rd_index->indnatts)

/*
 * IndexRelationGetNumberOfKeyAttributes
 *      Returns the number of key attributes in an index.
 */
#define IndexRelationGetNumberOfKeyAttributes(relation) \
        ((relation)->rd_index->indnkeyatts)

/*
 * RelationGetDescr
 *      Returns tuple descriptor for a relation.
 */
#define RelationGetDescr(relation) ((relation)->rd_att)

/*
 * RelationGetRelationName
 *      Returns the rel's name.
 *
 * Note that the name is only unique within the containing namespace.
 */
#define RelationGetRelationName(relation) \
    (NameStr((relation)->rd_rel->relname))

/*
 * RelationGetNamespace
 *      Returns the rel's namespace OID.
 */
#define RelationGetNamespace(relation) \
    ((relation)->rd_rel->relnamespace)

/*
 * RelationIsMapped
 *      True if the relation uses the relfilenode map.  Note multiple eval
 *      of argument!
 */
#define RelationIsMapped(relation) \
    (RELKIND_HAS_STORAGE((relation)->rd_rel->relkind) && \
     ((relation)->rd_rel->relfilenode == InvalidOid))

/*
 * RelationOpenSmgr
 *      Open the relation at the smgr level, if not already done.
 */
#define RelationOpenSmgr(relation) \
    do { \
        if ((relation)->rd_smgr == NULL) \
            smgrsetowner(&((relation)->rd_smgr), smgropen((relation)->rd_node, (relation)->rd_backend)); \
    } while (0)

/*
 * RelationCloseSmgr
 *      Close the relation at the smgr level, if not already done.
 *
 * Note: smgrclose should unhook from owner pointer, hence the Assert.
 */
#define RelationCloseSmgr(relation) \
    do { \
        if ((relation)->rd_smgr != NULL) \
        { \
            smgrclose((relation)->rd_smgr); \
            Assert((relation)->rd_smgr == NULL); \
        } \
    } while (0)

/*
 * RelationGetTargetBlock
 *      Fetch relation's current insertion target block.
 *
 * Returns InvalidBlockNumber if there is no current target block.  Note
 * that the target block status is discarded on any smgr-level invalidation.
 */
#define RelationGetTargetBlock(relation) \
    ( (relation)->rd_smgr != NULL ? (relation)->rd_smgr->smgr_targblock : InvalidBlockNumber )

/*
 * RelationSetTargetBlock
 *      Set relation's current insertion target block.
 */
#define RelationSetTargetBlock(relation, targblock) \
    do { \
        RelationOpenSmgr(relation); \
        (relation)->rd_smgr->smgr_targblock = (targblock); \
    } while (0)

/*
 * RelationNeedsWAL
 *      True if relation needs WAL.
 */
#define RelationNeedsWAL(relation) \
    ((relation)->rd_rel->relpersistence == RELPERSISTENCE_PERMANENT)

/*
 * RelationUsesLocalBuffers
 *      True if relation's pages are stored in local buffers.
 */
#define RelationUsesLocalBuffers(relation) \
    ((relation)->rd_rel->relpersistence == RELPERSISTENCE_TEMP)

/*
 * RELATION_IS_LOCAL
 *      If a rel is either temp or newly created in the current transaction,
 *      it can be assumed to be accessible only to the current backend.
 *      This is typically used to decide that we can skip acquiring locks.
 *
 * Beware of multiple eval of argument
 */
#define RELATION_IS_LOCAL(relation) \
    ((relation)->rd_islocaltemp || \
     (relation)->rd_createSubid != InvalidSubTransactionId)

/*
 * RELATION_IS_OTHER_TEMP
 *      Test for a temporary relation that belongs to some other session.
 *
 * Beware of multiple eval of argument
 */
#define RELATION_IS_OTHER_TEMP(relation) \
    ((relation)->rd_rel->relpersistence == RELPERSISTENCE_TEMP && \
     !(relation)->rd_islocaltemp)


/*
 * RelationIsScannable
 *      Currently can only be false for a materialized view which has not been
 *      populated by its query.  This is likely to get more complicated later,
 *      so use a macro which looks like a function.
 */
#define RelationIsScannable(relation) ((relation)->rd_rel->relispopulated)

/*
 * RelationIsPopulated
 *      Currently, we don't physically distinguish the "populated" and
 *      "scannable" properties of matviews, but that may change later.
 *      Hence, use the appropriate one of these macros in code tests.
 */
#define RelationIsPopulated(relation) ((relation)->rd_rel->relispopulated)

/*
 * RelationIsAccessibleInLogicalDecoding
 *      True if we need to log enough information to have access via
 *      decoding snapshot.
 */
#define RelationIsAccessibleInLogicalDecoding(relation) \
    (XLogLogicalInfoActive() && \
     RelationNeedsWAL(relation) && \
     (IsCatalogRelation(relation) || RelationIsUsedAsCatalogTable(relation)))

/*
 * RelationIsLogicallyLogged
 *      True if we need to log enough information to extract the data from the
 *      WAL stream.
 *
 * We don't log information for unlogged tables (since they don't WAL log
 * anyway) and for system tables (their content is hard to make sense of, and
 * it would complicate decoding slightly for little gain). Note that we *do*
 * log information for user defined catalog tables since they presumably are
 * interesting to the user...
 */
#define RelationIsLogicallyLogged(relation) \
    (XLogLogicalInfoActive() && \
     RelationNeedsWAL(relation) && \
     !IsCatalogRelation(relation))

/*
 * RelationGetPartitionKey
 *      Returns the PartitionKey of a relation
 */
#define RelationGetPartitionKey(relation) ((relation)->rd_partkey)

/*
 * RelationGetPartitionDesc
 *      Returns partition descriptor for a relation.
 */
#define RelationGetPartitionDesc(relation) ((relation)->rd_partdesc)

/* routines in utils/cache/relcache.c */
extern void RelationIncrementReferenceCount(Relation rel);
extern void RelationDecrementReferenceCount(Relation rel);

#endif                          /* REL_H */