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/*-------------------------------------------------------------------------
*
* instrument.c
* functions for instrumentation of plan execution
*
*
* Copyright (c) 2001-2023, PostgreSQL Global Development Group
*
* IDENTIFICATION
* src/backend/executor/instrument.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include <unistd.h>
#include "executor/instrument.h"
BufferUsage pgBufferUsage;
static BufferUsage save_pgBufferUsage;
WalUsage pgWalUsage;
static WalUsage save_pgWalUsage;
static void BufferUsageAdd(BufferUsage *dst, const BufferUsage *add);
static void WalUsageAdd(WalUsage *dst, WalUsage *add);
/* Allocate new instrumentation structure(s) */
Instrumentation *
InstrAlloc(int n, int instrument_options, bool async_mode)
{
Instrumentation *instr;
/* initialize all fields to zeroes, then modify as needed */
instr = palloc0(n * sizeof(Instrumentation));
if (instrument_options & (INSTRUMENT_BUFFERS | INSTRUMENT_TIMER | INSTRUMENT_WAL))
{
bool need_buffers = (instrument_options & INSTRUMENT_BUFFERS) != 0;
bool need_wal = (instrument_options & INSTRUMENT_WAL) != 0;
bool need_timer = (instrument_options & INSTRUMENT_TIMER) != 0;
int i;
for (i = 0; i < n; i++)
{
instr[i].need_bufusage = need_buffers;
instr[i].need_walusage = need_wal;
instr[i].need_timer = need_timer;
instr[i].async_mode = async_mode;
}
}
return instr;
}
/* Initialize a pre-allocated instrumentation structure. */
void
InstrInit(Instrumentation *instr, int instrument_options)
{
memset(instr, 0, sizeof(Instrumentation));
instr->need_bufusage = (instrument_options & INSTRUMENT_BUFFERS) != 0;
instr->need_walusage = (instrument_options & INSTRUMENT_WAL) != 0;
instr->need_timer = (instrument_options & INSTRUMENT_TIMER) != 0;
}
/* Entry to a plan node */
void
InstrStartNode(Instrumentation *instr)
{
if (instr->need_timer &&
!INSTR_TIME_SET_CURRENT_LAZY(instr->starttime))
elog(ERROR, "InstrStartNode called twice in a row");
/* save buffer usage totals at node entry, if needed */
if (instr->need_bufusage)
instr->bufusage_start = pgBufferUsage;
if (instr->need_walusage)
instr->walusage_start = pgWalUsage;
}
/* Exit from a plan node */
void
InstrStopNode(Instrumentation *instr, double nTuples)
{
double save_tuplecount = instr->tuplecount;
instr_time endtime;
/* count the returned tuples */
instr->tuplecount += nTuples;
/* let's update the time only if the timer was requested */
if (instr->need_timer)
{
if (INSTR_TIME_IS_ZERO(instr->starttime))
elog(ERROR, "InstrStopNode called without start");
INSTR_TIME_SET_CURRENT(endtime);
INSTR_TIME_ACCUM_DIFF(instr->counter, endtime, instr->starttime);
INSTR_TIME_SET_ZERO(instr->starttime);
}
/* Add delta of buffer usage since entry to node's totals */
if (instr->need_bufusage)
BufferUsageAccumDiff(&instr->bufusage,
&pgBufferUsage, &instr->bufusage_start);
if (instr->need_walusage)
WalUsageAccumDiff(&instr->walusage,
&pgWalUsage, &instr->walusage_start);
/* Is this the first tuple of this cycle? */
if (!instr->running)
{
instr->running = true;
instr->firsttuple = INSTR_TIME_GET_DOUBLE(instr->counter);
}
else
{
/*
* In async mode, if the plan node hadn't emitted any tuples before,
* this might be the first tuple
*/
if (instr->async_mode && save_tuplecount < 1.0)
instr->firsttuple = INSTR_TIME_GET_DOUBLE(instr->counter);
}
}
/* Update tuple count */
void
InstrUpdateTupleCount(Instrumentation *instr, double nTuples)
{
/* count the returned tuples */
instr->tuplecount += nTuples;
}
/* Finish a run cycle for a plan node */
void
InstrEndLoop(Instrumentation *instr)
{
double totaltime;
/* Skip if nothing has happened, or already shut down */
if (!instr->running)
return;
if (!INSTR_TIME_IS_ZERO(instr->starttime))
elog(ERROR, "InstrEndLoop called on running node");
/* Accumulate per-cycle statistics into totals */
totaltime = INSTR_TIME_GET_DOUBLE(instr->counter);
instr->startup += instr->firsttuple;
instr->total += totaltime;
instr->ntuples += instr->tuplecount;
instr->nloops += 1;
/* Reset for next cycle (if any) */
instr->running = false;
INSTR_TIME_SET_ZERO(instr->starttime);
INSTR_TIME_SET_ZERO(instr->counter);
instr->firsttuple = 0;
instr->tuplecount = 0;
}
/* aggregate instrumentation information */
void
InstrAggNode(Instrumentation *dst, Instrumentation *add)
{
if (!dst->running && add->running)
{
dst->running = true;
dst->firsttuple = add->firsttuple;
}
else if (dst->running && add->running && dst->firsttuple > add->firsttuple)
dst->firsttuple = add->firsttuple;
INSTR_TIME_ADD(dst->counter, add->counter);
dst->tuplecount += add->tuplecount;
dst->startup += add->startup;
dst->total += add->total;
dst->ntuples += add->ntuples;
dst->ntuples2 += add->ntuples2;
dst->nloops += add->nloops;
dst->nfiltered1 += add->nfiltered1;
dst->nfiltered2 += add->nfiltered2;
/* Add delta of buffer usage since entry to node's totals */
if (dst->need_bufusage)
BufferUsageAdd(&dst->bufusage, &add->bufusage);
if (dst->need_walusage)
WalUsageAdd(&dst->walusage, &add->walusage);
}
/* note current values during parallel executor startup */
void
InstrStartParallelQuery(void)
{
save_pgBufferUsage = pgBufferUsage;
save_pgWalUsage = pgWalUsage;
}
/* report usage after parallel executor shutdown */
void
InstrEndParallelQuery(BufferUsage *bufusage, WalUsage *walusage)
{
memset(bufusage, 0, sizeof(BufferUsage));
BufferUsageAccumDiff(bufusage, &pgBufferUsage, &save_pgBufferUsage);
memset(walusage, 0, sizeof(WalUsage));
WalUsageAccumDiff(walusage, &pgWalUsage, &save_pgWalUsage);
}
/* accumulate work done by workers in leader's stats */
void
InstrAccumParallelQuery(BufferUsage *bufusage, WalUsage *walusage)
{
BufferUsageAdd(&pgBufferUsage, bufusage);
WalUsageAdd(&pgWalUsage, walusage);
}
/* dst += add */
static void
BufferUsageAdd(BufferUsage *dst, const BufferUsage *add)
{
dst->shared_blks_hit += add->shared_blks_hit;
dst->shared_blks_read += add->shared_blks_read;
dst->shared_blks_dirtied += add->shared_blks_dirtied;
dst->shared_blks_written += add->shared_blks_written;
dst->local_blks_hit += add->local_blks_hit;
dst->local_blks_read += add->local_blks_read;
dst->local_blks_dirtied += add->local_blks_dirtied;
dst->local_blks_written += add->local_blks_written;
dst->temp_blks_read += add->temp_blks_read;
dst->temp_blks_written += add->temp_blks_written;
INSTR_TIME_ADD(dst->blk_read_time, add->blk_read_time);
INSTR_TIME_ADD(dst->blk_write_time, add->blk_write_time);
INSTR_TIME_ADD(dst->temp_blk_read_time, add->temp_blk_read_time);
INSTR_TIME_ADD(dst->temp_blk_write_time, add->temp_blk_write_time);
}
/* dst += add - sub */
void
BufferUsageAccumDiff(BufferUsage *dst,
const BufferUsage *add,
const BufferUsage *sub)
{
dst->shared_blks_hit += add->shared_blks_hit - sub->shared_blks_hit;
dst->shared_blks_read += add->shared_blks_read - sub->shared_blks_read;
dst->shared_blks_dirtied += add->shared_blks_dirtied - sub->shared_blks_dirtied;
dst->shared_blks_written += add->shared_blks_written - sub->shared_blks_written;
dst->local_blks_hit += add->local_blks_hit - sub->local_blks_hit;
dst->local_blks_read += add->local_blks_read - sub->local_blks_read;
dst->local_blks_dirtied += add->local_blks_dirtied - sub->local_blks_dirtied;
dst->local_blks_written += add->local_blks_written - sub->local_blks_written;
dst->temp_blks_read += add->temp_blks_read - sub->temp_blks_read;
dst->temp_blks_written += add->temp_blks_written - sub->temp_blks_written;
INSTR_TIME_ACCUM_DIFF(dst->blk_read_time,
add->blk_read_time, sub->blk_read_time);
INSTR_TIME_ACCUM_DIFF(dst->blk_write_time,
add->blk_write_time, sub->blk_write_time);
INSTR_TIME_ACCUM_DIFF(dst->temp_blk_read_time,
add->temp_blk_read_time, sub->temp_blk_read_time);
INSTR_TIME_ACCUM_DIFF(dst->temp_blk_write_time,
add->temp_blk_write_time, sub->temp_blk_write_time);
}
/* helper functions for WAL usage accumulation */
static void
WalUsageAdd(WalUsage *dst, WalUsage *add)
{
dst->wal_bytes += add->wal_bytes;
dst->wal_records += add->wal_records;
dst->wal_fpi += add->wal_fpi;
}
void
WalUsageAccumDiff(WalUsage *dst, const WalUsage *add, const WalUsage *sub)
{
dst->wal_bytes += add->wal_bytes - sub->wal_bytes;
dst->wal_records += add->wal_records - sub->wal_records;
dst->wal_fpi += add->wal_fpi - sub->wal_fpi;
}
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