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postgresql/contrib/pgstattuple/pgstattuple.c
Andres Freund c2fe139c20 tableam: Add and use scan APIs. 
Too allow table accesses to be not directly dependent on heap, several
new abstractions are needed. Specifically:

1) Heap scans need to be generalized into table scans. Do this by
   introducing TableScanDesc, which will be the "base class" for
   individual AMs. This contains the AM independent fields from
   HeapScanDesc.

   The previous heap_{beginscan,rescan,endscan} et al. have been
   replaced with a table_ version.

   There's no direct replacement for heap_getnext(), as that returned
   a HeapTuple, which is undesirable for a other AMs. Instead there's
   table_scan_getnextslot().  But note that heap_getnext() lives on,
   it's still used widely to access catalog tables.

   This is achieved by new scan_begin, scan_end, scan_rescan,
   scan_getnextslot callbacks.

2) The portion of parallel scans that's shared between backends need
   to be able to do so without the user doing per-AM work. To achieve
   that new parallelscan_{estimate, initialize, reinitialize}
   callbacks are introduced, which operate on a new
   ParallelTableScanDesc, which again can be subclassed by AMs.

   As it is likely that several AMs are going to be block oriented,
   block oriented callbacks that can be shared between such AMs are
   provided and used by heap. table_block_parallelscan_{estimate,
   intiialize, reinitialize} as callbacks, and
   table_block_parallelscan_{nextpage, init} for use in AMs. These
   operate on a ParallelBlockTableScanDesc.

3) Index scans need to be able to access tables to return a tuple, and
   there needs to be state across individual accesses to the heap to
   store state like buffers. That's now handled by introducing a
   sort-of-scan IndexFetchTable, which again is intended to be
   subclassed by individual AMs (for heap IndexFetchHeap).

   The relevant callbacks for an AM are index_fetch_{end, begin,
   reset} to create the necessary state, and index_fetch_tuple to
   retrieve an indexed tuple.  Note that index_fetch_tuple
   implementations need to be smarter than just blindly fetching the
   tuples for AMs that have optimizations similar to heap's HOT - the
   currently alive tuple in the update chain needs to be fetched if
   appropriate.

   Similar to table_scan_getnextslot(), it's undesirable to continue
   to return HeapTuples. Thus index_fetch_heap (might want to rename
   that later) now accepts a slot as an argument. Core code doesn't
   have a lot of call sites performing index scans without going
   through the systable_* API (in contrast to loads of heap_getnext
   calls and working directly with HeapTuples).

   Index scans now store the result of a search in
   IndexScanDesc->xs_heaptid, rather than xs_ctup->t_self. As the
   target is not generally a HeapTuple anymore that seems cleaner.

To be able to sensible adapt code to use the above, two further
callbacks have been introduced:

a) slot_callbacks returns a TupleTableSlotOps* suitable for creating
   slots capable of holding a tuple of the AMs
   type. table_slot_callbacks() and table_slot_create() are based
   upon that, but have additional logic to deal with views, foreign
   tables, etc.

   While this change could have been done separately, nearly all the
   call sites that needed to be adapted for the rest of this commit
   also would have been needed to be adapted for
   table_slot_callbacks(), making separation not worthwhile.

b) tuple_satisfies_snapshot checks whether the tuple in a slot is
   currently visible according to a snapshot. That's required as a few
   places now don't have a buffer + HeapTuple around, but a
   slot (which in heap's case internally has that information).

Additionally a few infrastructure changes were needed:

I) SysScanDesc, as used by systable_{beginscan, getnext} et al. now
   internally uses a slot to keep track of tuples. While
   systable_getnext() still returns HeapTuples, and will so for the
   foreseeable future, the index API (see 1) above) now only deals with
   slots.

The remainder, and largest part, of this commit is then adjusting all
scans in postgres to use the new APIs.

Author: Andres Freund, Haribabu Kommi, Alvaro Herrera
Discussion:
    https://postgr.es/m/20180703070645.wchpu5muyto5n647@alap3.anarazel.de
    https://postgr.es/m/20160812231527.GA690404@alvherre.pgsql
2019-03-11 12:46:41 -07:00

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/*
* contrib/pgstattuple/pgstattuple.c
*
* Copyright (c) 2001,2002 Tatsuo Ishii
*
* Permission to use, copy, modify, and distribute this software and
* its documentation for any purpose, without fee, and without a
* written agreement is hereby granted, provided that the above
* copyright notice and this paragraph and the following two
* paragraphs appear in all copies.
*
* IN NO EVENT SHALL THE AUTHOR BE LIABLE TO ANY PARTY FOR DIRECT,
* INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES, INCLUDING
* LOST PROFITS, ARISING OUT OF THE USE OF THIS SOFTWARE AND ITS
* DOCUMENTATION, EVEN IF THE UNIVERSITY OF CALIFORNIA HAS BEEN ADVISED
* OF THE POSSIBILITY OF SUCH DAMAGE.
*
* THE AUTHOR SPECIFICALLY DISCLAIMS ANY WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE. THE SOFTWARE PROVIDED HEREUNDER IS ON AN "AS
* IS" BASIS, AND THE AUTHOR HAS NO OBLIGATIONS TO PROVIDE MAINTENANCE,
* SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS.
*/
#include "postgres.h"
#include "access/gist_private.h"
#include "access/hash.h"
#include "access/heapam.h"
#include "access/nbtree.h"
#include "access/relscan.h"
#include "access/tableam.h"
#include "catalog/namespace.h"
#include "catalog/pg_am.h"
#include "funcapi.h"
#include "miscadmin.h"
#include "storage/bufmgr.h"
#include "storage/lmgr.h"
#include "utils/builtins.h"
#include "utils/varlena.h"
PG_MODULE_MAGIC;
PG_FUNCTION_INFO_V1(pgstattuple);
PG_FUNCTION_INFO_V1(pgstattuple_v1_5);
PG_FUNCTION_INFO_V1(pgstattuplebyid);
PG_FUNCTION_INFO_V1(pgstattuplebyid_v1_5);
/*
* struct pgstattuple_type
*
* tuple_percent, dead_tuple_percent and free_percent are computable,
* so not defined here.
*/
typedef struct pgstattuple_type
{
uint64 table_len;
uint64 tuple_count;
uint64 tuple_len;
uint64 dead_tuple_count;
uint64 dead_tuple_len;
uint64 free_space; /* free/reusable space in bytes */
} pgstattuple_type;
typedef void (*pgstat_page) (pgstattuple_type *, Relation, BlockNumber,
BufferAccessStrategy);
static Datum build_pgstattuple_type(pgstattuple_type *stat,
FunctionCallInfo fcinfo);
static Datum pgstat_relation(Relation rel, FunctionCallInfo fcinfo);
static Datum pgstat_heap(Relation rel, FunctionCallInfo fcinfo);
static void pgstat_btree_page(pgstattuple_type *stat,
Relation rel, BlockNumber blkno,
BufferAccessStrategy bstrategy);
static void pgstat_hash_page(pgstattuple_type *stat,
Relation rel, BlockNumber blkno,
BufferAccessStrategy bstrategy);
static void pgstat_gist_page(pgstattuple_type *stat,
Relation rel, BlockNumber blkno,
BufferAccessStrategy bstrategy);
static Datum pgstat_index(Relation rel, BlockNumber start,
pgstat_page pagefn, FunctionCallInfo fcinfo);
static void pgstat_index_page(pgstattuple_type *stat, Page page,
OffsetNumber minoff, OffsetNumber maxoff);
/*
* build_pgstattuple_type -- build a pgstattuple_type tuple
*/
static Datum
build_pgstattuple_type(pgstattuple_type *stat, FunctionCallInfo fcinfo)
{
#define NCOLUMNS 9
#define NCHARS 314
HeapTuple tuple;
char *values[NCOLUMNS];
char values_buf[NCOLUMNS][NCHARS];
int i;
double tuple_percent;
double dead_tuple_percent;
double free_percent; /* free/reusable space in % */
TupleDesc tupdesc;
AttInMetadata *attinmeta;
/* Build a tuple descriptor for our result type */
if (get_call_result_type(fcinfo, NULL, &tupdesc) != TYPEFUNC_COMPOSITE)
elog(ERROR, "return type must be a row type");
/*
* Generate attribute metadata needed later to produce tuples from raw C
* strings
*/
attinmeta = TupleDescGetAttInMetadata(tupdesc);
if (stat->table_len == 0)
{
tuple_percent = 0.0;
dead_tuple_percent = 0.0;
free_percent = 0.0;
}
else
{
tuple_percent = 100.0 * stat->tuple_len / stat->table_len;
dead_tuple_percent = 100.0 * stat->dead_tuple_len / stat->table_len;
free_percent = 100.0 * stat->free_space / stat->table_len;
}
/*
* Prepare a values array for constructing the tuple. This should be an
* array of C strings which will be processed later by the appropriate
* "in" functions.
*/
for (i = 0; i < NCOLUMNS; i++)
values[i] = values_buf[i];
i = 0;
snprintf(values[i++], NCHARS, INT64_FORMAT, stat->table_len);
snprintf(values[i++], NCHARS, INT64_FORMAT, stat->tuple_count);
snprintf(values[i++], NCHARS, INT64_FORMAT, stat->tuple_len);
snprintf(values[i++], NCHARS, "%.2f", tuple_percent);
snprintf(values[i++], NCHARS, INT64_FORMAT, stat->dead_tuple_count);
snprintf(values[i++], NCHARS, INT64_FORMAT, stat->dead_tuple_len);
snprintf(values[i++], NCHARS, "%.2f", dead_tuple_percent);
snprintf(values[i++], NCHARS, INT64_FORMAT, stat->free_space);
snprintf(values[i++], NCHARS, "%.2f", free_percent);
/* build a tuple */
tuple = BuildTupleFromCStrings(attinmeta, values);
/* make the tuple into a datum */
return HeapTupleGetDatum(tuple);
}
/* ----------
* pgstattuple:
* returns live/dead tuples info
*
* C FUNCTION definition
* pgstattuple(text) returns pgstattuple_type
*
* The superuser() check here must be kept as the library might be upgraded
* without the extension being upgraded, meaning that in pre-1.5 installations
* these functions could be called by any user.
* ----------
*/
Datum
pgstattuple(PG_FUNCTION_ARGS)
{
text *relname = PG_GETARG_TEXT_PP(0);
RangeVar *relrv;
Relation rel;
if (!superuser())
ereport(ERROR,
(errcode(ERRCODE_INSUFFICIENT_PRIVILEGE),
(errmsg("must be superuser to use pgstattuple functions"))));
/* open relation */
relrv = makeRangeVarFromNameList(textToQualifiedNameList(relname));
rel = relation_openrv(relrv, AccessShareLock);
PG_RETURN_DATUM(pgstat_relation(rel, fcinfo));
}
/*
* As of pgstattuple version 1.5, we no longer need to check if the user
* is a superuser because we REVOKE EXECUTE on the function from PUBLIC.
* Users can then grant access to it based on their policies.
*
* Otherwise identical to pgstattuple (above).
*/
Datum
pgstattuple_v1_5(PG_FUNCTION_ARGS)
{
text *relname = PG_GETARG_TEXT_PP(0);
RangeVar *relrv;
Relation rel;
/* open relation */
relrv = makeRangeVarFromNameList(textToQualifiedNameList(relname));
rel = relation_openrv(relrv, AccessShareLock);
PG_RETURN_DATUM(pgstat_relation(rel, fcinfo));
}
/* Must keep superuser() check, see above. */
Datum
pgstattuplebyid(PG_FUNCTION_ARGS)
{
Oid relid = PG_GETARG_OID(0);
Relation rel;
if (!superuser())
ereport(ERROR,
(errcode(ERRCODE_INSUFFICIENT_PRIVILEGE),
(errmsg("must be superuser to use pgstattuple functions"))));
/* open relation */
rel = relation_open(relid, AccessShareLock);
PG_RETURN_DATUM(pgstat_relation(rel, fcinfo));
}
/* Remove superuser() check for 1.5 version, see above */
Datum
pgstattuplebyid_v1_5(PG_FUNCTION_ARGS)
{
Oid relid = PG_GETARG_OID(0);
Relation rel;
/* open relation */
rel = relation_open(relid, AccessShareLock);
PG_RETURN_DATUM(pgstat_relation(rel, fcinfo));
}
/*
* pgstat_relation
*/
static Datum
pgstat_relation(Relation rel, FunctionCallInfo fcinfo)
{
const char *err;
/*
* Reject attempts to read non-local temporary relations; we would be
* likely to get wrong data since we have no visibility into the owning
* session's local buffers.
*/
if (RELATION_IS_OTHER_TEMP(rel))
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("cannot access temporary tables of other sessions")));
switch (rel->rd_rel->relkind)
{
case RELKIND_RELATION:
case RELKIND_MATVIEW:
case RELKIND_TOASTVALUE:
case RELKIND_SEQUENCE:
return pgstat_heap(rel, fcinfo);
case RELKIND_INDEX:
switch (rel->rd_rel->relam)
{
case BTREE_AM_OID:
return pgstat_index(rel, BTREE_METAPAGE + 1,
pgstat_btree_page, fcinfo);
case HASH_AM_OID:
return pgstat_index(rel, HASH_METAPAGE + 1,
pgstat_hash_page, fcinfo);
case GIST_AM_OID:
return pgstat_index(rel, GIST_ROOT_BLKNO + 1,
pgstat_gist_page, fcinfo);
case GIN_AM_OID:
err = "gin index";
break;
case SPGIST_AM_OID:
err = "spgist index";
break;
case BRIN_AM_OID:
err = "brin index";
break;
default:
err = "unknown index";
break;
}
break;
case RELKIND_VIEW:
err = "view";
break;
case RELKIND_COMPOSITE_TYPE:
err = "composite type";
break;
case RELKIND_FOREIGN_TABLE:
err = "foreign table";
break;
case RELKIND_PARTITIONED_TABLE:
err = "partitioned table";
break;
case RELKIND_PARTITIONED_INDEX:
err = "partitioned index";
break;
default:
err = "unknown";
break;
}
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("\"%s\" (%s) is not supported",
RelationGetRelationName(rel), err)));
return 0; /* should not happen */
}
/*
* pgstat_heap -- returns live/dead tuples info in a heap
*/
static Datum
pgstat_heap(Relation rel, FunctionCallInfo fcinfo)
{
TableScanDesc scan;
HeapScanDesc hscan;
HeapTuple tuple;
BlockNumber nblocks;
BlockNumber block = 0; /* next block to count free space in */
BlockNumber tupblock;
Buffer buffer;
pgstattuple_type stat = {0};
SnapshotData SnapshotDirty;
/* Disable syncscan because we assume we scan from block zero upwards */
scan = table_beginscan_strat(rel, SnapshotAny, 0, NULL, true, false);
hscan = (HeapScanDesc) scan;
InitDirtySnapshot(SnapshotDirty);
nblocks = hscan->rs_nblocks; /* # blocks to be scanned */
/* scan the relation */
while ((tuple = heap_getnext(scan, ForwardScanDirection)) != NULL)
{
CHECK_FOR_INTERRUPTS();
/* must hold a buffer lock to call HeapTupleSatisfiesVisibility */
LockBuffer(hscan->rs_cbuf, BUFFER_LOCK_SHARE);
if (HeapTupleSatisfiesVisibility(tuple, &SnapshotDirty, hscan->rs_cbuf))
{
stat.tuple_len += tuple->t_len;
stat.tuple_count++;
}
else
{
stat.dead_tuple_len += tuple->t_len;
stat.dead_tuple_count++;
}
LockBuffer(hscan->rs_cbuf, BUFFER_LOCK_UNLOCK);
/*
* To avoid physically reading the table twice, try to do the
* free-space scan in parallel with the heap scan. However,
* heap_getnext may find no tuples on a given page, so we cannot
* simply examine the pages returned by the heap scan.
*/
tupblock = ItemPointerGetBlockNumber(&tuple->t_self);
while (block <= tupblock)
{
CHECK_FOR_INTERRUPTS();
buffer = ReadBufferExtended(rel, MAIN_FORKNUM, block,
RBM_NORMAL, hscan->rs_strategy);
LockBuffer(buffer, BUFFER_LOCK_SHARE);
stat.free_space += PageGetHeapFreeSpace((Page) BufferGetPage(buffer));
UnlockReleaseBuffer(buffer);
block++;
}
}
while (block < nblocks)
{
CHECK_FOR_INTERRUPTS();
buffer = ReadBufferExtended(rel, MAIN_FORKNUM, block,
RBM_NORMAL, hscan->rs_strategy);
LockBuffer(buffer, BUFFER_LOCK_SHARE);
stat.free_space += PageGetHeapFreeSpace((Page) BufferGetPage(buffer));
UnlockReleaseBuffer(buffer);
block++;
}
table_endscan(scan);
relation_close(rel, AccessShareLock);
stat.table_len = (uint64) nblocks * BLCKSZ;
return build_pgstattuple_type(&stat, fcinfo);
}
/*
* pgstat_btree_page -- check tuples in a btree page
*/
static void
pgstat_btree_page(pgstattuple_type *stat, Relation rel, BlockNumber blkno,
BufferAccessStrategy bstrategy)
{
Buffer buf;
Page page;
buf = ReadBufferExtended(rel, MAIN_FORKNUM, blkno, RBM_NORMAL, bstrategy);
LockBuffer(buf, BT_READ);
page = BufferGetPage(buf);
/* Page is valid, see what to do with it */
if (PageIsNew(page))
{
/* fully empty page */
stat->free_space += BLCKSZ;
}
else
{
BTPageOpaque opaque;
opaque = (BTPageOpaque) PageGetSpecialPointer(page);
if (P_IGNORE(opaque))
{
/* recyclable page */
stat->free_space += BLCKSZ;
}
else if (P_ISLEAF(opaque))
{
pgstat_index_page(stat, page, P_FIRSTDATAKEY(opaque),
PageGetMaxOffsetNumber(page));
}
else
{
/* root or node */
}
}
_bt_relbuf(rel, buf);
}
/*
* pgstat_hash_page -- check tuples in a hash page
*/
static void
pgstat_hash_page(pgstattuple_type *stat, Relation rel, BlockNumber blkno,
BufferAccessStrategy bstrategy)
{
Buffer buf;
Page page;
buf = _hash_getbuf_with_strategy(rel, blkno, HASH_READ, 0, bstrategy);
page = BufferGetPage(buf);
if (PageGetSpecialSize(page) == MAXALIGN(sizeof(HashPageOpaqueData)))
{
HashPageOpaque opaque;
opaque = (HashPageOpaque) PageGetSpecialPointer(page);
switch (opaque->hasho_flag & LH_PAGE_TYPE)
{
case LH_UNUSED_PAGE:
stat->free_space += BLCKSZ;
break;
case LH_BUCKET_PAGE:
case LH_OVERFLOW_PAGE:
pgstat_index_page(stat, page, FirstOffsetNumber,
PageGetMaxOffsetNumber(page));
break;
case LH_BITMAP_PAGE:
case LH_META_PAGE:
default:
break;
}
}
else
{
/* maybe corrupted */
}
_hash_relbuf(rel, buf);
}
/*
* pgstat_gist_page -- check tuples in a gist page
*/
static void
pgstat_gist_page(pgstattuple_type *stat, Relation rel, BlockNumber blkno,
BufferAccessStrategy bstrategy)
{
Buffer buf;
Page page;
buf = ReadBufferExtended(rel, MAIN_FORKNUM, blkno, RBM_NORMAL, bstrategy);
LockBuffer(buf, GIST_SHARE);
gistcheckpage(rel, buf);
page = BufferGetPage(buf);
if (GistPageIsLeaf(page))
{
pgstat_index_page(stat, page, FirstOffsetNumber,
PageGetMaxOffsetNumber(page));
}
else
{
/* root or node */
}
UnlockReleaseBuffer(buf);
}
/*
* pgstat_index -- returns live/dead tuples info in a generic index
*/
static Datum
pgstat_index(Relation rel, BlockNumber start, pgstat_page pagefn,
FunctionCallInfo fcinfo)
{
BlockNumber nblocks;
BlockNumber blkno;
BufferAccessStrategy bstrategy;
pgstattuple_type stat = {0};
/* prepare access strategy for this index */
bstrategy = GetAccessStrategy(BAS_BULKREAD);
blkno = start;
for (;;)
{
/* Get the current relation length */
LockRelationForExtension(rel, ExclusiveLock);
nblocks = RelationGetNumberOfBlocks(rel);
UnlockRelationForExtension(rel, ExclusiveLock);
/* Quit if we've scanned the whole relation */
if (blkno >= nblocks)
{
stat.table_len = (uint64) nblocks * BLCKSZ;
break;
}
for (; blkno < nblocks; blkno++)
{
CHECK_FOR_INTERRUPTS();
pagefn(&stat, rel, blkno, bstrategy);
}
}
relation_close(rel, AccessShareLock);
return build_pgstattuple_type(&stat, fcinfo);
}
/*
* pgstat_index_page -- for generic index page
*/
static void
pgstat_index_page(pgstattuple_type *stat, Page page,
OffsetNumber minoff, OffsetNumber maxoff)
{
OffsetNumber i;
stat->free_space += PageGetFreeSpace(page);
for (i = minoff; i <= maxoff; i = OffsetNumberNext(i))
{
ItemId itemid = PageGetItemId(page, i);
if (ItemIdIsDead(itemid))
{
stat->dead_tuple_count++;
stat->dead_tuple_len += ItemIdGetLength(itemid);
}
else
{
stat->tuple_count++;
stat->tuple_len += ItemIdGetLength(itemid);
}
}
}
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