/*------------------------------------------------------------------------- * * vacuum.h * header file for postgres vacuum cleaner and statistics analyzer * * * Portions Copyright (c) 1996-2023, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * src/include/commands/vacuum.h * *------------------------------------------------------------------------- */ #ifndef VACUUM_H #define VACUUM_H #include "access/htup.h" #include "access/genam.h" #include "access/parallel.h" #include "catalog/pg_class.h" #include "catalog/pg_statistic.h" #include "catalog/pg_type.h" #include "parser/parse_node.h" #include "storage/buf.h" #include "storage/lock.h" #include "utils/relcache.h" /* * Flags for amparallelvacuumoptions to control the participation of bulkdelete * and vacuumcleanup in parallel vacuum. */ /* * Both bulkdelete and vacuumcleanup are disabled by default. This will be * used by IndexAM's that don't want to or cannot participate in parallel * vacuum. For example, if an index AM doesn't have a way to communicate the * index statistics allocated by the first ambulkdelete call to the subsequent * ones until amvacuumcleanup, the index AM cannot participate in parallel * vacuum. */ #define VACUUM_OPTION_NO_PARALLEL 0 /* * bulkdelete can be performed in parallel. This option can be used by * index AMs that need to scan indexes to delete tuples. */ #define VACUUM_OPTION_PARALLEL_BULKDEL (1 << 0) /* * vacuumcleanup can be performed in parallel if bulkdelete is not performed * yet. This will be used by IndexAM's that can scan the index if the * bulkdelete is not performed. */ #define VACUUM_OPTION_PARALLEL_COND_CLEANUP (1 << 1) /* * vacuumcleanup can be performed in parallel even if bulkdelete has already * processed the index. This will be used by IndexAM's that scan the index * during the cleanup phase of index irrespective of whether the index is * already scanned or not during bulkdelete phase. */ #define VACUUM_OPTION_PARALLEL_CLEANUP (1 << 2) /* value for checking vacuum flags */ #define VACUUM_OPTION_MAX_VALID_VALUE ((1 << 3) - 1) /* Abstract type for parallel vacuum state */ typedef struct ParallelVacuumState ParallelVacuumState; /*---------- * ANALYZE builds one of these structs for each attribute (column) that is * to be analyzed. The struct and subsidiary data are in anl_context, * so they live until the end of the ANALYZE operation. * * The type-specific typanalyze function is passed a pointer to this struct * and must return true to continue analysis, false to skip analysis of this * column. In the true case it must set the compute_stats and minrows fields, * and can optionally set extra_data to pass additional info to compute_stats. * minrows is its request for the minimum number of sample rows to be gathered * (but note this request might not be honored, eg if there are fewer rows * than that in the table). * * The compute_stats routine will be called after sample rows have been * gathered. Aside from this struct, it is passed: * fetchfunc: a function for accessing the column values from the * sample rows * samplerows: the number of sample tuples * totalrows: estimated total number of rows in relation * The fetchfunc may be called with rownum running from 0 to samplerows-1. * It returns a Datum and an isNull flag. * * compute_stats should set stats_valid true if it is able to compute * any useful statistics. If it does, the remainder of the struct holds * the information to be stored in a pg_statistic row for the column. Be * careful to allocate any pointed-to data in anl_context, which will NOT * be CurrentMemoryContext when compute_stats is called. * * Note: all comparisons done for statistical purposes should use the * underlying column's collation (attcollation), except in situations * where a noncollatable container type contains a collatable type; * in that case use the type's default collation. Be sure to record * the appropriate collation in stacoll. *---------- */ typedef struct VacAttrStats *VacAttrStatsP; typedef Datum (*AnalyzeAttrFetchFunc) (VacAttrStatsP stats, int rownum, bool *isNull); typedef void (*AnalyzeAttrComputeStatsFunc) (VacAttrStatsP stats, AnalyzeAttrFetchFunc fetchfunc, int samplerows, double totalrows); typedef struct VacAttrStats { /* * These fields are set up by the main ANALYZE code before invoking the * type-specific typanalyze function. * * Note: do not assume that the data being analyzed has the same datatype * shown in attr, ie do not trust attr->atttypid, attlen, etc. This is * because some index opclasses store a different type than the underlying * column/expression. Instead use attrtypid, attrtypmod, and attrtype for * information about the datatype being fed to the typanalyze function. * Likewise, use attrcollid not attr->attcollation. */ Form_pg_attribute attr; /* copy of pg_attribute row for column */ Oid attrtypid; /* type of data being analyzed */ int32 attrtypmod; /* typmod of data being analyzed */ Form_pg_type attrtype; /* copy of pg_type row for attrtypid */ Oid attrcollid; /* collation of data being analyzed */ MemoryContext anl_context; /* where to save long-lived data */ /* * These fields must be filled in by the typanalyze routine, unless it * returns false. */ AnalyzeAttrComputeStatsFunc compute_stats; /* function pointer */ int minrows; /* Minimum # of rows wanted for stats */ void *extra_data; /* for extra type-specific data */ /* * These fields are to be filled in by the compute_stats routine. (They * are initialized to zero when the struct is created.) */ bool stats_valid; float4 stanullfrac; /* fraction of entries that are NULL */ int32 stawidth; /* average width of column values */ float4 stadistinct; /* # distinct values */ int16 stakind[STATISTIC_NUM_SLOTS]; Oid staop[STATISTIC_NUM_SLOTS]; Oid stacoll[STATISTIC_NUM_SLOTS]; int numnumbers[STATISTIC_NUM_SLOTS]; float4 *stanumbers[STATISTIC_NUM_SLOTS]; int numvalues[STATISTIC_NUM_SLOTS]; Datum *stavalues[STATISTIC_NUM_SLOTS]; /* * These fields describe the stavalues[n] element types. They will be * initialized to match attrtypid, but a custom typanalyze function might * want to store an array of something other than the analyzed column's * elements. It should then overwrite these fields. */ Oid statypid[STATISTIC_NUM_SLOTS]; int16 statyplen[STATISTIC_NUM_SLOTS]; bool statypbyval[STATISTIC_NUM_SLOTS]; char statypalign[STATISTIC_NUM_SLOTS]; /* * These fields are private to the main ANALYZE code and should not be * looked at by type-specific functions. */ int tupattnum; /* attribute number within tuples */ HeapTuple *rows; /* access info for std fetch function */ TupleDesc tupDesc; Datum *exprvals; /* access info for index fetch function */ bool *exprnulls; int rowstride; } VacAttrStats; /* flag bits for VacuumParams->options */ #define VACOPT_VACUUM 0x01 /* do VACUUM */ #define VACOPT_ANALYZE 0x02 /* do ANALYZE */ #define VACOPT_VERBOSE 0x04 /* output INFO instrumentation messages */ #define VACOPT_FREEZE 0x08 /* FREEZE option */ #define VACOPT_FULL 0x10 /* FULL (non-concurrent) vacuum */ #define VACOPT_SKIP_LOCKED 0x20 /* skip if cannot get lock */ #define VACOPT_PROCESS_MAIN 0x40 /* process main relation */ #define VACOPT_PROCESS_TOAST 0x80 /* process the TOAST table, if any */ #define VACOPT_DISABLE_PAGE_SKIPPING 0x100 /* don't skip any pages */ #define VACOPT_SKIP_DATABASE_STATS 0x200 /* skip vac_update_datfrozenxid() */ #define VACOPT_ONLY_DATABASE_STATS 0x400 /* only vac_update_datfrozenxid() */ /* * Values used by index_cleanup and truncate params. * * VACOPTVALUE_UNSPECIFIED is used as an initial placeholder when VACUUM * command has no explicit value. When that happens the final usable value * comes from the corresponding reloption (though the reloption default is * usually used). */ typedef enum VacOptValue { VACOPTVALUE_UNSPECIFIED = 0, VACOPTVALUE_AUTO, VACOPTVALUE_DISABLED, VACOPTVALUE_ENABLED, } VacOptValue; /* * Parameters customizing behavior of VACUUM and ANALYZE. * * Note that at least one of VACOPT_VACUUM and VACOPT_ANALYZE must be set * in options. * * When adding a new VacuumParam member, consider adding it to vacuumdb as * well. */ typedef struct VacuumParams { bits32 options; /* bitmask of VACOPT_* */ int freeze_min_age; /* min freeze age, -1 to use default */ int freeze_table_age; /* age at which to scan whole table */ int multixact_freeze_min_age; /* min multixact freeze age, -1 to * use default */ int multixact_freeze_table_age; /* multixact age at which to scan * whole table */ bool is_wraparound; /* force a for-wraparound vacuum */ int log_min_duration; /* minimum execution threshold in ms at * which autovacuum is logged, -1 to use * default */ VacOptValue index_cleanup; /* Do index vacuum and cleanup */ VacOptValue truncate; /* Truncate empty pages at the end */ /* * The number of parallel vacuum workers. 0 by default which means choose * based on the number of indexes. -1 indicates parallel vacuum is * disabled. */ int nworkers; } VacuumParams; /* * VacuumCutoffs is immutable state that describes the cutoffs used by VACUUM. * Established at the beginning of each VACUUM operation. */ struct VacuumCutoffs { /* * Existing pg_class fields at start of VACUUM */ TransactionId relfrozenxid; MultiXactId relminmxid; /* * OldestXmin is the Xid below which tuples deleted by any xact (that * committed) should be considered DEAD, not just RECENTLY_DEAD. * * OldestMxact is the Mxid below which MultiXacts are definitely not seen * as visible by any running transaction. * * OldestXmin and OldestMxact are also the most recent values that can * ever be passed to vac_update_relstats() as frozenxid and minmulti * arguments at the end of VACUUM. These same values should be passed * when it turns out that VACUUM will leave no unfrozen XIDs/MXIDs behind * in the table. */ TransactionId OldestXmin; MultiXactId OldestMxact; /* * FreezeLimit is the Xid below which all Xids are definitely frozen or * removed in pages VACUUM scans and cleanup locks. * * MultiXactCutoff is the value below which all MultiXactIds are * definitely removed from Xmax in pages VACUUM scans and cleanup locks. */ TransactionId FreezeLimit; MultiXactId MultiXactCutoff; }; /* * VacDeadItems stores TIDs whose index tuples are deleted by index vacuuming. */ typedef struct VacDeadItems { int max_items; /* # slots allocated in array */ int num_items; /* current # of entries */ /* Sorted array of TIDs to delete from indexes */ ItemPointerData items[FLEXIBLE_ARRAY_MEMBER]; } VacDeadItems; #define MAXDEADITEMS(avail_mem) \ (((avail_mem) - offsetof(VacDeadItems, items)) / sizeof(ItemPointerData)) /* GUC parameters */ extern PGDLLIMPORT int default_statistics_target; /* PGDLLIMPORT for PostGIS */ extern PGDLLIMPORT int vacuum_freeze_min_age; extern PGDLLIMPORT int vacuum_freeze_table_age; extern PGDLLIMPORT int vacuum_multixact_freeze_min_age; extern PGDLLIMPORT int vacuum_multixact_freeze_table_age; extern PGDLLIMPORT int vacuum_failsafe_age; extern PGDLLIMPORT int vacuum_multixact_failsafe_age; /* Variables for cost-based parallel vacuum */ extern PGDLLIMPORT pg_atomic_uint32 *VacuumSharedCostBalance; extern PGDLLIMPORT pg_atomic_uint32 *VacuumActiveNWorkers; extern PGDLLIMPORT int VacuumCostBalanceLocal; extern PGDLLIMPORT bool VacuumFailsafeActive; extern PGDLLIMPORT double vacuum_cost_delay; extern PGDLLIMPORT int vacuum_cost_limit; /* in commands/vacuum.c */ extern void ExecVacuum(ParseState *pstate, VacuumStmt *vacstmt, bool isTopLevel); extern void vacuum(List *relations, VacuumParams *params, BufferAccessStrategy bstrategy, MemoryContext vac_context, bool isTopLevel); extern void vac_open_indexes(Relation relation, LOCKMODE lockmode, int *nindexes, Relation **Irel); extern void vac_close_indexes(int nindexes, Relation *Irel, LOCKMODE lockmode); extern double vac_estimate_reltuples(Relation relation, BlockNumber total_pages, BlockNumber scanned_pages, double scanned_tuples); extern void vac_update_relstats(Relation relation, BlockNumber num_pages, double num_tuples, BlockNumber num_all_visible_pages, bool hasindex, TransactionId frozenxid, MultiXactId minmulti, bool *frozenxid_updated, bool *minmulti_updated, bool in_outer_xact); extern bool vacuum_get_cutoffs(Relation rel, const VacuumParams *params, struct VacuumCutoffs *cutoffs); extern bool vacuum_xid_failsafe_check(const struct VacuumCutoffs *cutoffs); extern void vac_update_datfrozenxid(void); extern void vacuum_delay_point(void); extern bool vacuum_is_relation_owner(Oid relid, Form_pg_class reltuple, bits32 options); extern Relation vacuum_open_relation(Oid relid, RangeVar *relation, bits32 options, bool verbose, LOCKMODE lmode); extern IndexBulkDeleteResult *vac_bulkdel_one_index(IndexVacuumInfo *ivinfo, IndexBulkDeleteResult *istat, VacDeadItems *dead_items); extern IndexBulkDeleteResult *vac_cleanup_one_index(IndexVacuumInfo *ivinfo, IndexBulkDeleteResult *istat); extern Size vac_max_items_to_alloc_size(int max_items); /* In postmaster/autovacuum.c */ extern void AutoVacuumUpdateCostLimit(void); extern void VacuumUpdateCosts(void); /* in commands/vacuumparallel.c */ extern ParallelVacuumState *parallel_vacuum_init(Relation rel, Relation *indrels, int nindexes, int nrequested_workers, int max_items, int elevel, BufferAccessStrategy bstrategy); extern void parallel_vacuum_end(ParallelVacuumState *pvs, IndexBulkDeleteResult **istats); extern VacDeadItems *parallel_vacuum_get_dead_items(ParallelVacuumState *pvs); extern void parallel_vacuum_bulkdel_all_indexes(ParallelVacuumState *pvs, long num_table_tuples, int num_index_scans); extern void parallel_vacuum_cleanup_all_indexes(ParallelVacuumState *pvs, long num_table_tuples, int num_index_scans, bool estimated_count); extern void parallel_vacuum_main(dsm_segment *seg, shm_toc *toc); /* in commands/analyze.c */ extern void analyze_rel(Oid relid, RangeVar *relation, VacuumParams *params, List *va_cols, bool in_outer_xact, BufferAccessStrategy bstrategy); extern bool std_typanalyze(VacAttrStats *stats); /* in utils/misc/sampling.c --- duplicate of declarations in utils/sampling.h */ extern double anl_random_fract(void); extern double anl_init_selection_state(int n); extern double anl_get_next_S(double t, int n, double *stateptr); #endif /* VACUUM_H */