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contrib/tsm_system_time

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This commit is contained in:
Simon Riggs 2015-05-15 15:31:50 -04:00
parent 4d40494b11
commit 56e121a508
7 changed files with 453 additions and 0 deletions
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4
contrib/tsm_system_time/.gitignore vendored Normal file
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# Generated subdirectories
/log/
/results/
/tmp_check/

21
contrib/tsm_system_time/Makefile Normal file
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# src/test/modules/tsm_system_time/Makefile
MODULE_big = tsm_system_time
OBJS = tsm_system_time.o $(WIN32RES)
PGFILEDESC = "tsm_system_time - SYSTEM TABLESAMPLE method which accepts number rows of as a limit"
EXTENSION = tsm_system_time
DATA = tsm_system_time--1.0.sql
REGRESS = tsm_system_time
ifdef USE_PGXS
PG_CONFIG = pg_config
PGXS := $(shell $(PG_CONFIG) --pgxs)
include $(PGXS)
else
subdir = contrib/tsm_system_time
top_builddir = ../..
include $(top_builddir)/src/Makefile.global
include $(top_srcdir)/contrib/contrib-global.mk
endif

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contrib/tsm_system_time/expected/tsm_system_time.out Normal file
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CREATE EXTENSION tsm_system_time;
CREATE TABLE test_tablesample (id int, name text) WITH (fillfactor=10); -- force smaller pages so we don't have to load too much data to get multiple pages
INSERT INTO test_tablesample SELECT i, repeat(i::text, 1000) FROM generate_series(0, 30) s(i) ORDER BY i;
ANALYZE test_tablesample;
SELECT count(*) FROM test_tablesample TABLESAMPLE system_time (1000);
count
-------
31
(1 row)
SELECT id FROM test_tablesample TABLESAMPLE system_time (1000) REPEATABLE (5432);
id
----
7
14
21
28
4
11
18
25
1
8
15
22
29
5
12
19
26
2
9
16
23
30
6
13
20
27
3
10
17
24
0
(31 rows)
EXPLAIN SELECT id FROM test_tablesample TABLESAMPLE system_time (100) REPEATABLE (10);
QUERY PLAN
------------------------------------------------------------------------------------
Sample Scan (system_time) on test_tablesample (cost=0.00..100.25 rows=25 width=4)
(1 row)
-- done
DROP TABLE test_tablesample CASCADE;

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contrib/tsm_system_time/sql/tsm_system_time.sql Normal file
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CREATE EXTENSION tsm_system_time;
CREATE TABLE test_tablesample (id int, name text) WITH (fillfactor=10); -- force smaller pages so we don't have to load too much data to get multiple pages
INSERT INTO test_tablesample SELECT i, repeat(i::text, 1000) FROM generate_series(0, 30) s(i) ORDER BY i;
ANALYZE test_tablesample;
SELECT count(*) FROM test_tablesample TABLESAMPLE system_time (1000);
SELECT id FROM test_tablesample TABLESAMPLE system_time (1000) REPEATABLE (5432);
EXPLAIN SELECT id FROM test_tablesample TABLESAMPLE system_time (100) REPEATABLE (10);
-- done
DROP TABLE test_tablesample CASCADE;

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contrib/tsm_system_time/tsm_system_time--1.0.sql Normal file
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/* src/test/modules/tablesample/tsm_system_time--1.0.sql */
-- complain if script is sourced in psql, rather than via CREATE EXTENSION
\echo Use "CREATE EXTENSION tsm_system_time" to load this file. \quit
CREATE FUNCTION tsm_system_time_init(internal, int4, int4)
RETURNS void
AS 'MODULE_PATHNAME'
LANGUAGE C STRICT;
CREATE FUNCTION tsm_system_time_nextblock(internal)
RETURNS int4
AS 'MODULE_PATHNAME'
LANGUAGE C STRICT;
CREATE FUNCTION tsm_system_time_nexttuple(internal, int4, int2)
RETURNS int2
AS 'MODULE_PATHNAME'
LANGUAGE C STRICT;
CREATE FUNCTION tsm_system_time_end(internal)
RETURNS void
AS 'MODULE_PATHNAME'
LANGUAGE C STRICT;
CREATE FUNCTION tsm_system_time_reset(internal)
RETURNS void
AS 'MODULE_PATHNAME'
LANGUAGE C STRICT;
CREATE FUNCTION tsm_system_time_cost(internal, internal, internal, internal, internal, internal, internal)
RETURNS void
AS 'MODULE_PATHNAME'
LANGUAGE C STRICT;
INSERT INTO pg_tablesample_method VALUES('system_time', false, true,
'tsm_system_time_init', 'tsm_system_time_nextblock',
'tsm_system_time_nexttuple', '-', 'tsm_system_time_end',
'tsm_system_time_reset', 'tsm_system_time_cost');

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contrib/tsm_system_time/tsm_system_time.c Normal file
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/*-------------------------------------------------------------------------
*
* tsm_system_time.c
* interface routines for system_time tablesample method
*
*
* Portions Copyright (c) 1996-2014, PostgreSQL Global Development Group
*
* IDENTIFICATION
* contrib/tsm_system_time_rowlimit/tsm_system_time.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include "fmgr.h"
#include "access/tablesample.h"
#include "access/relscan.h"
#include "miscadmin.h"
#include "nodes/execnodes.h"
#include "nodes/relation.h"
#include "optimizer/clauses.h"
#include "storage/bufmgr.h"
#include "utils/sampling.h"
#include "utils/spccache.h"
#include "utils/timestamp.h"
PG_MODULE_MAGIC;
/*
* State
*/
typedef struct
{
SamplerRandomState randstate;
uint32 seed; /* random seed */
BlockNumber nblocks; /* number of block in relation */
int32 time; /* time limit for sampling */
TimestampTz start_time; /* start time of sampling */
TimestampTz end_time; /* end time of sampling */
OffsetNumber lt; /* last tuple returned from current block */
BlockNumber step; /* step size */
BlockNumber lb; /* last block visited */
BlockNumber estblocks; /* estimated number of returned blocks (moving) */
BlockNumber doneblocks; /* number of already returned blocks */
} SystemSamplerData;
PG_FUNCTION_INFO_V1(tsm_system_time_init);
PG_FUNCTION_INFO_V1(tsm_system_time_nextblock);
PG_FUNCTION_INFO_V1(tsm_system_time_nexttuple);
PG_FUNCTION_INFO_V1(tsm_system_time_end);
PG_FUNCTION_INFO_V1(tsm_system_time_reset);
PG_FUNCTION_INFO_V1(tsm_system_time_cost);
static uint32 random_relative_prime(uint32 n, SamplerRandomState randstate);
/*
* Initializes the state.
*/
Datum
tsm_system_time_init(PG_FUNCTION_ARGS)
{
TableSampleDesc *tsdesc = (TableSampleDesc *) PG_GETARG_POINTER(0);
uint32 seed = PG_GETARG_UINT32(1);
int32 time = PG_ARGISNULL(2) ? -1 : PG_GETARG_INT32(2);
HeapScanDesc scan = tsdesc->heapScan;
SystemSamplerData *sampler;
if (time < 1)
ereport(ERROR,
(errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),
errmsg("invalid time limit"),
errhint("Time limit must be positive integer value.")));
sampler = palloc0(sizeof(SystemSamplerData));
/* Remember initial values for reinit */
sampler->seed = seed;
sampler->nblocks = scan->rs_nblocks;
sampler->lt = InvalidOffsetNumber;
sampler->estblocks = 2;
sampler->doneblocks = 0;
sampler->time = time;
sampler->start_time = GetCurrentTimestamp();
sampler->end_time = TimestampTzPlusMilliseconds(sampler->start_time,
sampler->time);
sampler_random_init_state(sampler->seed, sampler->randstate);
/* Find relative prime as step size for linear probing. */
sampler->step = random_relative_prime(sampler->nblocks, sampler->randstate);
/*
* Randomize start position so that blocks close to step size don't have
* higher probability of being chosen on very short scan.
*/
sampler->lb = sampler_random_fract(sampler->randstate) * (sampler->nblocks / sampler->step);
tsdesc->tsmdata = (void *) sampler;
PG_RETURN_VOID();
}
/*
* Get next block number or InvalidBlockNumber when we're done.
*
* Uses linear probing algorithm for picking next block.
*/
Datum
tsm_system_time_nextblock(PG_FUNCTION_ARGS)
{
TableSampleDesc *tsdesc = (TableSampleDesc *) PG_GETARG_POINTER(0);
SystemSamplerData *sampler = (SystemSamplerData *) tsdesc->tsmdata;
sampler->lb = (sampler->lb + sampler->step) % sampler->nblocks;
sampler->doneblocks++;
/* All blocks have been read, we're done */
if (sampler->doneblocks > sampler->nblocks)
PG_RETURN_UINT32(InvalidBlockNumber);
/*
* Update the estimations for time limit at least 10 times per estimated
* number of returned blocks to handle variations in block read speed.
*/
if (sampler->doneblocks % Max(sampler->estblocks/10, 1) == 0)
{
TimestampTz now = GetCurrentTimestamp();
long secs;
int usecs;
int usecs_remaining;
int time_per_block;
TimestampDifference(sampler->start_time, now, &secs, &usecs);
usecs += (int) secs * 1000000;
time_per_block = usecs / sampler->doneblocks;
/* No time left, end. */
TimestampDifference(now, sampler->end_time, &secs, &usecs);
if (secs <= 0 && usecs <= 0)
PG_RETURN_UINT32(InvalidBlockNumber);
/* Remaining microseconds */
usecs_remaining = usecs + (int) secs * 1000000;
/* Recalculate estimated returned number of blocks */
if (time_per_block < usecs_remaining && time_per_block > 0)
sampler->estblocks = sampler->time * time_per_block;
}
PG_RETURN_UINT32(sampler->lb);
}
/*
* Get next tuple offset in current block or InvalidOffsetNumber if we are done
* with this block.
*/
Datum
tsm_system_time_nexttuple(PG_FUNCTION_ARGS)
{
TableSampleDesc *tsdesc = (TableSampleDesc *) PG_GETARG_POINTER(0);
OffsetNumber maxoffset = PG_GETARG_UINT16(2);
SystemSamplerData *sampler = (SystemSamplerData *) tsdesc->tsmdata;
OffsetNumber tupoffset = sampler->lt;
if (tupoffset == InvalidOffsetNumber)
tupoffset = FirstOffsetNumber;
else
tupoffset++;
if (tupoffset > maxoffset)
tupoffset = InvalidOffsetNumber;
sampler->lt = tupoffset;
PG_RETURN_UINT16(tupoffset);
}
/*
* Cleanup method.
*/
Datum
tsm_system_time_end(PG_FUNCTION_ARGS)
{
TableSampleDesc *tsdesc = (TableSampleDesc *) PG_GETARG_POINTER(0);
pfree(tsdesc->tsmdata);
PG_RETURN_VOID();
}
/*
* Reset state (called by ReScan).
*/
Datum
tsm_system_time_reset(PG_FUNCTION_ARGS)
{
TableSampleDesc *tsdesc = (TableSampleDesc *) PG_GETARG_POINTER(0);
SystemSamplerData *sampler = (SystemSamplerData *) tsdesc->tsmdata;
sampler->lt = InvalidOffsetNumber;
sampler->start_time = GetCurrentTimestamp();
sampler->end_time = TimestampTzPlusMilliseconds(sampler->start_time,
sampler->time);
sampler->estblocks = 2;
sampler->doneblocks = 0;
sampler_random_init_state(sampler->seed, sampler->randstate);
sampler->step = random_relative_prime(sampler->nblocks, sampler->randstate);
sampler->lb = sampler_random_fract(sampler->randstate) * (sampler->nblocks / sampler->step);
PG_RETURN_VOID();
}
/*
* Costing function.
*/
Datum
tsm_system_time_cost(PG_FUNCTION_ARGS)
{
PlannerInfo *root = (PlannerInfo *) PG_GETARG_POINTER(0);
Path *path = (Path *) PG_GETARG_POINTER(1);
RelOptInfo *baserel = (RelOptInfo *) PG_GETARG_POINTER(2);
List *args = (List *) PG_GETARG_POINTER(3);
BlockNumber *pages = (BlockNumber *) PG_GETARG_POINTER(4);
double *tuples = (double *) PG_GETARG_POINTER(5);
Node *limitnode;
int32 time;
BlockNumber relpages;
double reltuples;
double density;
double spc_random_page_cost;
limitnode = linitial(args);
limitnode = estimate_expression_value(root, limitnode);
if (IsA(limitnode, RelabelType))
limitnode = (Node *) ((RelabelType *) limitnode)->arg;
if (IsA(limitnode, Const))
time = DatumGetInt32(((Const *) limitnode)->constvalue);
else
{
/* Default time (1s) if the estimation didn't return Const. */
time = 1000;
}
relpages = baserel->pages;
reltuples = baserel->tuples;
/* estimate the tuple density */
if (relpages > 0)
density = reltuples / (double) relpages;
else
density = (BLCKSZ - SizeOfPageHeaderData) / baserel->width;
/*
* We equal random page cost value to number of ms it takes to read the
* random page here which is far from accurate but we don't have anything
* better to base our predicted page reads.
*/
get_tablespace_page_costs(baserel->reltablespace,
&spc_random_page_cost,
NULL);
/*
* Assumption here is that we'll never read less then 1% of table pages,
* this is here mainly because it is much less bad to overestimate than
* underestimate and using just spc_random_page_cost will probably lead
* to underestimations in general.
*/
*pages = Min(baserel->pages, Max(time/spc_random_page_cost, baserel->pages/100));
*tuples = rint(density * (double) *pages * path->rows / baserel->tuples);
path->rows = *tuples;
PG_RETURN_VOID();
}
static uint32
gcd (uint32 a, uint32 b)
{
uint32 c;
while (a != 0)
{
c = a;
a = b % a;
b = c;
}
return b;
}
static uint32
random_relative_prime(uint32 n, SamplerRandomState randstate)
{
/* Pick random starting number, with some limits on what it can be. */
uint32 r = (uint32) sampler_random_fract(randstate) * n/2 + n/4,
t;
/*
* This should only take 2 or 3 iterations as the probability of 2 numbers
* being relatively prime is ~61%.
*/
while ((t = gcd(r, n)) > 1)
{
CHECK_FOR_INTERRUPTS();
r /= t;
}
return r;
}

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contrib/tsm_system_time/tsm_system_time.control Normal file
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# tsm_system_time extension
comment = 'SYSTEM TABLESAMPLE method which accepts time in milliseconds as a limit'
default_version = '1.0'
module_pathname = '$libdir/tsm_system_time'
relocatable = true