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/*****************************************************************************
Copyright (c) 1996, 2017, Oracle and/or its affiliates. All Rights Reserved.
Copyright (c) 2017, 2022, MariaDB Corporation.
This program is free software; you can redistribute it and/or modify it under
the terms of the GNU General Public License as published by the Free Software
Foundation; version 2 of the License.
This program is distributed in the hope that it will be useful, but WITHOUT
ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details.
You should have received a copy of the GNU General Public License along with
this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1335 USA
*****************************************************************************/
/**************************************************//**
@file trx/trx0purge.cc
Purge old versions
Created 3/26/1996 Heikki Tuuri
*******************************************************/
#include "trx0purge.h"
#include "fsp0fsp.h"
#include "mach0data.h"
#include "mtr0log.h"
#include "que0que.h"
#include "row0purge.h"
#include "row0upd.h"
#include "srv0mon.h"
#include "srv0srv.h"
#include "srv0start.h"
#include "trx0rec.h"
#include "trx0roll.h"
#include "trx0rseg.h"
#include "trx0trx.h"
#include "dict0load.h"
#include <mysql/service_thd_mdl.h>
#include <mysql/service_wsrep.h>
#include "log.h"
/** Maximum allowable purge history length. <=0 means 'infinite'. */
ulong srv_max_purge_lag = 0;
/** Max DML user threads delay in micro-seconds. */
ulong srv_max_purge_lag_delay = 0;
/** The global data structure coordinating a purge */
purge_sys_t purge_sys;
#ifdef UNIV_DEBUG
my_bool srv_purge_view_update_only_debug;
#endif /* UNIV_DEBUG */
/** Sentinel value */
static const TrxUndoRsegs NullElement;
/** Default constructor */
TrxUndoRsegsIterator::TrxUndoRsegsIterator()
: m_rsegs(NullElement), m_iter(m_rsegs.begin())
{
}
/** Sets the next rseg to purge in purge_sys.
Executed in the purge coordinator thread.
@retval false when nothing is to be purged
@retval true when purge_sys.rseg->latch was locked */
inline bool TrxUndoRsegsIterator::set_next()
{
ut_ad(!purge_sys.next_stored);
mysql_mutex_lock(&purge_sys.pq_mutex);
/* Only purge consumes events from the priority queue, user
threads only produce the events. */
/* Check if there are more rsegs to process in the
current element. */
if (m_iter != m_rsegs.end()) {
/* We are still processing rollback segment from
the same transaction and so expected transaction
number shouldn't increase. Undo the increment of
expected commit done by caller assuming rollback
segments from given transaction are done. */
purge_sys.tail.trx_no = (*m_iter)->last_trx_no();
} else if (!purge_sys.purge_queue.empty()) {
m_rsegs = purge_sys.purge_queue.top();
purge_sys.purge_queue.pop();
ut_ad(purge_sys.purge_queue.empty()
|| purge_sys.purge_queue.top() != m_rsegs);
m_iter = m_rsegs.begin();
} else {
/* Queue is empty, reset iterator. */
purge_sys.rseg = NULL;
mysql_mutex_unlock(&purge_sys.pq_mutex);
m_rsegs = NullElement;
m_iter = m_rsegs.begin();
return false;
}
purge_sys.rseg = *m_iter++;
mysql_mutex_unlock(&purge_sys.pq_mutex);
/* We assume in purge of externally stored fields that space
id is in the range of UNDO tablespace space ids */
ut_ad(purge_sys.rseg->space->id == TRX_SYS_SPACE
|| srv_is_undo_tablespace(purge_sys.rseg->space->id));
purge_sys.rseg->latch.wr_lock(SRW_LOCK_CALL);
trx_id_t last_trx_no = purge_sys.rseg->last_trx_no();
purge_sys.hdr_offset = purge_sys.rseg->last_offset();
purge_sys.hdr_page_no = purge_sys.rseg->last_page_no;
/* Only the purge_coordinator_task will access this object
purge_sys.rseg_iter, or any of purge_sys.hdr_page_no,
purge_sys.tail.
The field purge_sys.head and purge_sys.view are modified by
purge_sys_t::clone_end_view()
in the purge_coordinator_task
while holding exclusive purge_sys.latch.
The purge_sys.view may also be modified by
purge_sys_t::wake_if_not_active() while holding exclusive
purge_sys.latch.
The purge_sys.head may be read by
purge_truncation_callback(). */
ut_ad(last_trx_no == m_rsegs.trx_no);
ut_a(purge_sys.hdr_page_no != FIL_NULL);
ut_a(purge_sys.tail.trx_no <= last_trx_no);
purge_sys.tail.trx_no = last_trx_no;
return(true);
}
/** Build a purge 'query' graph. The actual purge is performed by executing
this query graph.
@return own: the query graph */
static
que_t*
purge_graph_build()
{
ut_a(srv_n_purge_threads > 0);
trx_t* trx = trx_create();
ut_ad(!trx->id);
trx->start_time = time(NULL);
trx->start_time_micro = microsecond_interval_timer();
trx->state = TRX_STATE_ACTIVE;
trx->op_info = "purge trx";
mem_heap_t* heap = mem_heap_create(512);
que_fork_t* fork = que_fork_create(heap);
fork->trx = trx;
for (auto i = innodb_purge_threads_MAX; i; i--) {
que_thr_t* thr = que_thr_create(fork, heap, NULL);
thr->child = new(mem_heap_alloc(heap, sizeof(purge_node_t)))
purge_node_t(thr);
}
return(fork);
}
/** Initialise the purge system. */
void purge_sys_t::create()
{
ut_ad(this == &purge_sys);
ut_ad(!m_initialized);
ut_ad(!enabled());
ut_ad(!m_active);
/* If innodb_undo_tablespaces>0, the rollback segment 0
(which always resides in the system tablespace) will
never be used; @see trx_assign_rseg_low() */
skipped_rseg= srv_undo_tablespaces > 0;
m_paused= 0;
query= purge_graph_build();
next_stored= false;
rseg= nullptr;
page_no= 0;
offset= 0;
hdr_page_no= 0;
hdr_offset= 0;
latch.SRW_LOCK_INIT(trx_purge_latch_key);
end_latch.init();
mysql_mutex_init(purge_sys_pq_mutex_key, &pq_mutex, nullptr);
truncate_undo_space.current= nullptr;
truncate_undo_space.last= 0;
m_initialized= true;
}
/** Close the purge subsystem on shutdown. */
void purge_sys_t::close()
{
ut_ad(this == &purge_sys);
if (!m_initialized)
return;
ut_ad(!enabled());
trx_t *trx= query->trx;
que_graph_free(query);
ut_ad(!trx->id);
ut_ad(trx->state == TRX_STATE_ACTIVE);
trx->state= TRX_STATE_NOT_STARTED;
trx->free();
latch.destroy();
end_latch.destroy();
mysql_mutex_destroy(&pq_mutex);
m_initialized= false;
}
/** Determine if the history of a transaction is purgeable.
@param trx_id transaction identifier
@return whether the history is purgeable */
TRANSACTIONAL_TARGET bool purge_sys_t::is_purgeable(trx_id_t trx_id) const
{
bool purgeable;
#if !defined SUX_LOCK_GENERIC && !defined NO_ELISION
purgeable= false;
if (xbegin())
{
if (!latch.is_write_locked())
{
purgeable= view.changes_visible(trx_id);
xend();
}
else
xabort();
}
else
#endif
{
latch.rd_lock(SRW_LOCK_CALL);
purgeable= view.changes_visible(trx_id);
latch.rd_unlock();
}
return purgeable;
}
/*================ UNDO LOG HISTORY LIST =============================*/
/** Prepend the history list with an undo log.
Remove the undo log segment from the rseg slot if it is too big for reuse.
@param[in] trx transaction
@param[in,out] undo undo log
@param[in,out] mtr mini-transaction */
void
trx_purge_add_undo_to_history(const trx_t* trx, trx_undo_t*& undo, mtr_t* mtr)
{
DBUG_PRINT("trx", ("commit(" TRX_ID_FMT "," TRX_ID_FMT ")",
trx->id, trx_id_t{trx->rw_trx_hash_element->no}));
ut_ad(undo->id < TRX_RSEG_N_SLOTS);
ut_ad(undo == trx->rsegs.m_redo.undo);
trx_rseg_t *rseg= trx->rsegs.m_redo.rseg;
ut_ad(undo->rseg == rseg);
buf_block_t *rseg_header= rseg->get(mtr, nullptr);
/* We are in transaction commit; we cannot return an error. If the
database is corrupted, it is better to crash it than to
intentionally violate ACID by committing something that is known to
be corrupted. */
ut_ad(rseg_header);
buf_block_t *undo_page=
buf_page_get(page_id_t(rseg->space->id, undo->hdr_page_no), 0,
RW_X_LATCH, mtr);
/* This function is invoked during transaction commit, which is not
allowed to fail. If we get a corrupted undo header, we will crash here. */
ut_a(undo_page);
trx_ulogf_t *undo_header= undo_page->page.frame + undo->hdr_offset;
ut_ad(mach_read_from_2(undo_header + TRX_UNDO_NEEDS_PURGE) <= 1);
ut_ad(rseg->needs_purge > trx->id);
ut_ad(rseg->last_page_no != FIL_NULL);
rseg->history_size++;
if (UNIV_UNLIKELY(mach_read_from_4(TRX_RSEG + TRX_RSEG_FORMAT +
rseg_header->page.frame)))
/* This database must have been upgraded from before MariaDB 10.3.5. */
trx_rseg_format_upgrade(rseg_header, mtr);
uint16_t undo_state;
if (undo->size == 1 &&
TRX_UNDO_PAGE_REUSE_LIMIT >
mach_read_from_2(TRX_UNDO_PAGE_HDR + TRX_UNDO_PAGE_FREE +
undo_page->page.frame))
{
undo->state= undo_state= TRX_UNDO_CACHED;
UT_LIST_ADD_FIRST(rseg->undo_cached, undo);
}
else
{
ut_ad(undo->size == flst_get_len(TRX_UNDO_SEG_HDR + TRX_UNDO_PAGE_LIST +
undo_page->page.frame));
/* The undo log segment will not be reused */
static_assert(FIL_NULL == 0xffffffff, "");
mtr->memset(rseg_header, TRX_RSEG + TRX_RSEG_UNDO_SLOTS +
undo->id * TRX_RSEG_SLOT_SIZE, 4, 0xff);
uint32_t hist_size= mach_read_from_4(TRX_RSEG_HISTORY_SIZE + TRX_RSEG +
rseg_header->page.frame);
mtr->write<4>(*rseg_header, TRX_RSEG + TRX_RSEG_HISTORY_SIZE +
rseg_header->page.frame, hist_size + undo->size);
mtr->write<8>(*rseg_header, TRX_RSEG + TRX_RSEG_MAX_TRX_ID +
rseg_header->page.frame, trx_sys.get_max_trx_id());
ut_free(undo);
undo_state= TRX_UNDO_TO_PURGE;
}
undo= nullptr;
/*
Before any transaction-generating background threads or the purge
have been started, we can start transactions in
row_merge_drop_temp_indexes(), and roll back recovered transactions.
Arbitrary user transactions may be executed when all the undo log
related background processes (including purge) are disabled due to
innodb_force_recovery=2 or innodb_force_recovery=3. DROP TABLE may
be executed at any innodb_force_recovery level.
During fast shutdown, we may also continue to execute user
transactions. */
ut_ad(srv_undo_sources || srv_fast_shutdown ||
(!purge_sys.enabled() &&
(srv_is_being_started ||
srv_force_recovery >= SRV_FORCE_NO_BACKGROUND)));
#ifdef WITH_WSREP
if (wsrep_is_wsrep_xid(&trx->xid))
trx_rseg_update_wsrep_checkpoint(rseg_header, &trx->xid, mtr);
#endif
if (trx->mysql_log_file_name && *trx->mysql_log_file_name)
/* Update the latest binlog name and offset if log_bin=ON or this
is a replica. */
trx_rseg_update_binlog_offset(rseg_header, trx->mysql_log_file_name,
trx->mysql_log_offset, mtr);
/* Add the log as the first in the history list */
/* We are in transaction commit; we cannot return an error
when detecting corruption. It is better to crash the server
than to intentionally violate ACID by committing something
that is known to be corrupted. */
ut_a(flst_add_first(rseg_header, TRX_RSEG + TRX_RSEG_HISTORY, undo_page,
uint16_t(page_offset(undo_header) +
TRX_UNDO_HISTORY_NODE), mtr) == DB_SUCCESS);
mtr->write<2>(*undo_page, TRX_UNDO_SEG_HDR + TRX_UNDO_STATE +
undo_page->page.frame, undo_state);
mtr->write<8,mtr_t::MAYBE_NOP>(*undo_page, undo_header + TRX_UNDO_TRX_NO,
trx->rw_trx_hash_element->no);
mtr->write<2,mtr_t::MAYBE_NOP>(*undo_page, undo_header +
TRX_UNDO_NEEDS_PURGE, 1U);
}
/** Free an undo log segment.
@param rseg_hdr rollback segment header page
@param block undo segment header page
@param mtr mini-transaction */
static void trx_purge_free_segment(buf_block_t *rseg_hdr, buf_block_t *block,
mtr_t &mtr)
{
ut_ad(mtr.memo_contains_flagged(rseg_hdr, MTR_MEMO_PAGE_X_FIX));
ut_ad(mtr.memo_contains_flagged(block, MTR_MEMO_PAGE_X_FIX));
while (!fseg_free_step_not_header(TRX_UNDO_SEG_HDR + TRX_UNDO_FSEG_HEADER +
block->page.frame, &mtr))
{
rseg_hdr->fix();
block->fix();
ut_d(const page_id_t rseg_hdr_id{rseg_hdr->page.id()});
ut_d(const page_id_t id{block->page.id()});
mtr.commit();
/* NOTE: If the server is killed after the log that was produced
up to this point was written, and before the log from the mtr.commit()
in our caller is written, then the pages belonging to the
undo log will become unaccessible garbage.
This does not matter when using multiple innodb_undo_tablespaces;
innodb_undo_log_truncate=ON will be able to reclaim the space. */
mtr.start();
rseg_hdr->page.lock.x_lock();
ut_ad(rseg_hdr->page.id() == rseg_hdr_id);
block->page.lock.x_lock();
ut_ad(block->page.id() == id);
mtr.memo_push(rseg_hdr, MTR_MEMO_PAGE_X_FIX);
mtr.memo_push(block, MTR_MEMO_PAGE_X_FIX);
}
while (!fseg_free_step(TRX_UNDO_SEG_HDR + TRX_UNDO_FSEG_HEADER +
block->page.frame, &mtr));
}
void purge_sys_t::rseg_enable(trx_rseg_t &rseg)
{
ut_ad(this == &purge_sys);
#ifndef SUX_LOCK_GENERIC
ut_ad(rseg.latch.is_write_locked());
#endif
uint8_t skipped= skipped_rseg;
ut_ad(skipped < TRX_SYS_N_RSEGS);
if (&rseg == &trx_sys.rseg_array[skipped])
{
/* If this rollback segment is subject to innodb_undo_log_truncate=ON,
we must not clear the flag. But we will advance purge_sys.skipped_rseg
to be able to choose another candidate for this soft truncation, and
to prevent the following scenario:
(1) purge_sys_t::iterator::free_history_rseg() had invoked
rseg.set_skip_allocation()
(2) undo log truncation had completed on this rollback segment
(3) SET GLOBAL innodb_undo_log_truncate=OFF
(4) purge_sys_t::iterator::free_history_rseg() would not be able to
invoke rseg.set_skip_allocation() on any other rollback segment
before this rseg has grown enough */
if (truncate_undo_space.current != rseg.space)
rseg.clear_skip_allocation();
skipped++;
/* If innodb_undo_tablespaces>0, the rollback segment 0
(which always resides in the system tablespace) will
never be used; @see trx_assign_rseg_low() */
if (!(skipped&= (TRX_SYS_N_RSEGS - 1)) && srv_undo_tablespaces)
skipped++;
skipped_rseg= skipped;
}
}
/** Remove unnecessary history data from a rollback segment.
@param rseg rollback segment
@param limit truncate anything before this
@return error code */
inline dberr_t purge_sys_t::iterator::free_history_rseg(trx_rseg_t &rseg) const
{
fil_addr_t hdr_addr;
mtr_t mtr;
bool freed= false;
uint32_t rseg_ref= 0;
mtr.start();
dberr_t err;
buf_block_t *rseg_hdr= rseg.get(&mtr, &err);
if (!rseg_hdr)
{
func_exit:
mtr.commit();
if (freed && (rseg.SKIP & rseg_ref))
purge_sys.rseg_enable(rseg);
return err;
}
hdr_addr= flst_get_last(TRX_RSEG + TRX_RSEG_HISTORY + rseg_hdr->page.frame);
hdr_addr.boffset= static_cast<uint16_t>(hdr_addr.boffset -
TRX_UNDO_HISTORY_NODE);
loop:
if (hdr_addr.page == FIL_NULL)
goto func_exit;
buf_block_t *b=
buf_page_get_gen(page_id_t(rseg.space->id, hdr_addr.page),
0, RW_X_LATCH, nullptr, BUF_GET_POSSIBLY_FREED,
&mtr, &err);
if (!b)
goto func_exit;
const trx_id_t undo_trx_no=
mach_read_from_8(b->page.frame + hdr_addr.boffset + TRX_UNDO_TRX_NO);
if (undo_trx_no >= trx_no)
{
if (undo_trx_no == trx_no)
err= trx_undo_truncate_start(&rseg, hdr_addr.page,
hdr_addr.boffset, undo_no);
goto func_exit;
}
else
{
rseg_ref= rseg.ref_load();
if (rseg_ref >= rseg.REF || !purge_sys.sees(rseg.needs_purge))
{
/* We cannot clear this entire rseg because trx_assign_rseg_low()
has already chosen it for a future trx_undo_assign(), or
because some recently started transaction needs purging.
If this invocation could not reduce rseg.history_size at all
(!freed), we will try to ensure progress and prevent our
starvation by disabling one rollback segment for future
trx_assign_rseg_low() invocations until a future invocation has
made progress and invoked purge_sys_t::rseg_enable(rseg) on that
rollback segment. */
if (!(rseg.SKIP & rseg_ref) && !freed &&
ut_d(!trx_rseg_n_slots_debug &&)
&rseg == &trx_sys.rseg_array[purge_sys.skipped_rseg])
/* If rseg.space == purge_sys.truncate_undo_space.current
the following will be a no-op. A possible conflict
with innodb_undo_log_truncate=ON will be handled in
purge_sys_t::rseg_enable(). */
rseg.set_skip_allocation();
goto func_exit;
}
}
fil_addr_t prev_hdr_addr=
flst_get_prev_addr(b->page.frame + hdr_addr.boffset +
TRX_UNDO_HISTORY_NODE);
prev_hdr_addr.boffset= static_cast<uint16_t>(prev_hdr_addr.boffset -
TRX_UNDO_HISTORY_NODE);
err= flst_remove(rseg_hdr, TRX_RSEG + TRX_RSEG_HISTORY, b,
uint16_t(hdr_addr.boffset + TRX_UNDO_HISTORY_NODE), &mtr);
if (UNIV_UNLIKELY(err != DB_SUCCESS))
goto func_exit;
rseg_hdr->fix();
if (mach_read_from_2(b->page.frame + hdr_addr.boffset + TRX_UNDO_NEXT_LOG))
/* We cannot free the entire undo log segment. */;
else
{
const uint32_t seg_size=
flst_get_len(TRX_UNDO_SEG_HDR + TRX_UNDO_PAGE_LIST + b->page.frame);
switch (mach_read_from_2(TRX_UNDO_SEG_HDR + TRX_UNDO_STATE +
b->page.frame)) {
case TRX_UNDO_TO_PURGE:
{
byte *hist= TRX_RSEG + TRX_RSEG_HISTORY_SIZE + rseg_hdr->page.frame;
ut_ad(mach_read_from_4(hist) >= seg_size);
mtr.write<4>(*rseg_hdr, hist, mach_read_from_4(hist) - seg_size);
}
free_segment:
ut_ad(rseg.curr_size >= seg_size);
rseg.curr_size-= seg_size;
trx_purge_free_segment(rseg_hdr, b, mtr);
break;
case TRX_UNDO_CACHED:
/* rseg.undo_cached must point to this page */
trx_undo_t *undo= UT_LIST_GET_FIRST(rseg.undo_cached);
for (; undo; undo= UT_LIST_GET_NEXT(undo_list, undo))
if (undo->hdr_page_no == hdr_addr.page)
goto found_cached;
ut_ad("inconsistent undo logs" == 0);
if (false)
found_cached:
UT_LIST_REMOVE(rseg.undo_cached, undo);
static_assert(FIL_NULL == 0xffffffff, "");
if (UNIV_UNLIKELY(mach_read_from_4(TRX_RSEG + TRX_RSEG_FORMAT +
rseg_hdr->page.frame)))
trx_rseg_format_upgrade(rseg_hdr, &mtr);
mtr.memset(rseg_hdr, TRX_RSEG + TRX_RSEG_UNDO_SLOTS +
undo->id * TRX_RSEG_SLOT_SIZE, 4, 0xff);
ut_free(undo);
mtr.write<8,mtr_t::MAYBE_NOP>(*rseg_hdr, TRX_RSEG + TRX_RSEG_MAX_TRX_ID +
rseg_hdr->page.frame,
trx_sys.get_max_trx_id() - 1);
goto free_segment;
}
}
hdr_addr= prev_hdr_addr;
mtr.commit();
ut_ad(rseg.history_size > 0);
rseg.history_size--;
freed= true;
mtr.start();
rseg_hdr->page.lock.x_lock();
ut_ad(rseg_hdr->page.id() == rseg.page_id());
mtr.memo_push(rseg_hdr, MTR_MEMO_PAGE_X_FIX);
goto loop;
}
/** Cleanse purge queue to remove the rseg that reside in undo-tablespace
marked for truncate.
@param[in] space undo tablespace being truncated */
static void trx_purge_cleanse_purge_queue(const fil_space_t& space)
{
typedef std::vector<TrxUndoRsegs> purge_elem_list_t;
purge_elem_list_t purge_elem_list;
mysql_mutex_lock(&purge_sys.pq_mutex);
/* Remove rseg instances that are in the purge queue before we start
truncate of corresponding UNDO truncate. */
while (!purge_sys.purge_queue.empty()) {
purge_elem_list.push_back(purge_sys.purge_queue.top());
purge_sys.purge_queue.pop();
}
for (purge_elem_list_t::iterator it = purge_elem_list.begin();
it != purge_elem_list.end();
++it) {
for (TrxUndoRsegs::iterator it2 = it->begin();
it2 != it->end();
++it2) {
if ((*it2)->space == &space) {
it->erase(it2);
break;
}
}
if (!it->empty()) {
purge_sys.purge_queue.push(*it);
}
}
mysql_mutex_unlock(&purge_sys.pq_mutex);
}
dberr_t purge_sys_t::iterator::free_history() const
{
for (auto &rseg : trx_sys.rseg_array)
if (rseg.space)
{
ut_ad(rseg.is_persistent());
log_free_check();
rseg.latch.wr_lock(SRW_LOCK_CALL);
dberr_t err= free_history_rseg(rseg);
rseg.latch.wr_unlock();
if (err)
return err;
}
return DB_SUCCESS;
}
inline void trx_sys_t::undo_truncate_start(fil_space_t &space)
{
ut_ad(this == &trx_sys);
/* Undo tablespace always are a single file. */
ut_a(UT_LIST_GET_LEN(space.chain) == 1);
fil_node_t *file= UT_LIST_GET_FIRST(space.chain);
/* The undo tablespace files are never closed. */
ut_ad(file->is_open());
sql_print_information("InnoDB: Starting to truncate %s", file->name);
for (auto &rseg : rseg_array)
if (rseg.space == &space)
{
/* Prevent a race with purge_sys_t::iterator::free_history_rseg() */
rseg.latch.rd_lock(SRW_LOCK_CALL);
/* Once set, this rseg will not be allocated to subsequent
transactions, but we will wait for existing active
transactions to finish. */
rseg.set_skip_allocation();
rseg.latch.rd_unlock();
}
}
inline fil_space_t *purge_sys_t::undo_truncate_try(uint32_t id, uint32_t size)
{
ut_ad(srv_is_undo_tablespace(id));
fil_space_t *space= fil_space_get(id);
if (space && space->get_size() > size)
{
truncate_undo_space.current= space;
trx_sys.undo_truncate_start(*space);
return space;
}
return nullptr;
}
fil_space_t *purge_sys_t::truncating_tablespace()
{
ut_ad(this == &purge_sys);
fil_space_t *space= truncate_undo_space.current;
if (space || srv_undo_tablespaces_active < 2 || !srv_undo_log_truncate)
return space;
const uint32_t size= uint32_t(srv_max_undo_log_size >> srv_page_size_shift);
for (uint32_t i= truncate_undo_space.last, j= i;; )
{
if (fil_space_t *s= undo_truncate_try(srv_undo_space_id_start + i, size))
return s;
++i;
i%= srv_undo_tablespaces_active;
if (i == j)
return nullptr;
}
}
#if defined __GNUC__ && __GNUC__ == 4 && !defined __clang__
# if defined __arm__ || defined __aarch64__
/* Work around an internal compiler error in GCC 4.8.5 */
__attribute__((optimize(0)))
# endif
#endif
/**
Remove unnecessary history data from rollback segments. NOTE that when this
function is called, the caller
(purge_coordinator_callback or purge_truncation_callback)
must not have any latches on undo log pages!
*/
TRANSACTIONAL_TARGET void trx_purge_truncate_history()
{
ut_ad(purge_sys.head <= purge_sys.tail);
purge_sys_t::iterator &head= purge_sys.head.trx_no
? purge_sys.head : purge_sys.tail;
if (head.trx_no >= purge_sys.low_limit_no())
{
/* This is sometimes necessary. TODO: find out why. */
head.trx_no= purge_sys.low_limit_no();
head.undo_no= 0;
}
if (head.free_history() != DB_SUCCESS)
return;
while (fil_space_t *space= purge_sys.truncating_tablespace())
{
for (auto &rseg : trx_sys.rseg_array)
{
if (rseg.space != space)
continue;
rseg.latch.rd_lock(SRW_LOCK_CALL);
ut_ad(rseg.skip_allocation());
if (rseg.is_referenced() || !purge_sys.sees(rseg.needs_purge))
{
not_free:
rseg.latch.rd_unlock();
return;
}
ut_ad(UT_LIST_GET_LEN(rseg.undo_list) == 0);
/* Check if all segments are cached and safe to remove. */
ulint cached= 0;
for (const trx_undo_t *undo= UT_LIST_GET_FIRST(rseg.undo_cached); undo;
undo= UT_LIST_GET_NEXT(undo_list, undo))
{
if (head.trx_no && head.trx_no < undo->trx_id)
goto not_free;
else
cached+= undo->size;
}
ut_ad(rseg.curr_size > cached);
if (rseg.curr_size > cached + 1 &&
(rseg.history_size || srv_fast_shutdown || srv_undo_sources))
goto not_free;
rseg.latch.rd_unlock();
}
const char *file_name= UT_LIST_GET_FIRST(space->chain)->name;
sql_print_information("InnoDB: Truncating %s", file_name);
trx_purge_cleanse_purge_queue(*space);
/* Lock all modified pages of the tablespace.
During truncation, we do not want any writes to the file.
If a log checkpoint was completed at LSN earlier than our
mini-transaction commit and the server was killed, then
discarding the to-be-trimmed pages without flushing would
break crash recovery. */
if (UNIV_UNLIKELY(srv_shutdown_state != SRV_SHUTDOWN_NONE) &&
srv_fast_shutdown)
return;
/* Adjust the tablespace metadata. */
mysql_mutex_lock(&fil_system.mutex);
if (space->crypt_data)
{
space->reacquire();
mysql_mutex_unlock(&fil_system.mutex);
fil_space_crypt_close_tablespace(space);
space->release();
}
else
mysql_mutex_unlock(&fil_system.mutex);
/* Re-initialize tablespace, in a single mini-transaction. */
const uint32_t size= SRV_UNDO_TABLESPACE_SIZE_IN_PAGES;
log_free_check();
mtr_t mtr;
mtr.start();
mtr.x_lock_space(space);
/* Associate the undo tablespace with mtr.
During mtr::commit_shrink(), InnoDB can use the undo
tablespace object to clear all freed ranges */
mtr.set_named_space(space);
mtr.trim_pages(page_id_t(space->id, size));
ut_a(fsp_header_init(space, size, &mtr) == DB_SUCCESS);
for (auto &rseg : trx_sys.rseg_array)
{
if (rseg.space != space)
continue;
ut_ad(!rseg.is_referenced());
/* We may actually have rseg.needs_purge > head.trx_no here
if trx_t::commit_empty() had been executed in the past,
possibly before this server had been started up. */
dberr_t err;
buf_block_t *rblock= trx_rseg_header_create(space,
&rseg - trx_sys.rseg_array,
trx_sys.get_max_trx_id(),
&mtr, &err);
ut_a(rblock);
/* These were written by trx_rseg_header_create(). */
ut_ad(!mach_read_from_4(TRX_RSEG + TRX_RSEG_FORMAT +
rblock->page.frame));
ut_ad(!mach_read_from_4(TRX_RSEG + TRX_RSEG_HISTORY_SIZE +
rblock->page.frame));
rseg.reinit(rblock->page.id().page_no());
}
mtr.commit_shrink(*space, size);
/* No mutex; this is only updated by the purge coordinator. */
export_vars.innodb_undo_truncations++;
if (purge_sys.rseg && purge_sys.rseg->last_page_no == FIL_NULL)
{
/* If purge_sys.rseg is pointing to rseg that was recently
truncated then move to next rseg element.
Note: Ideally purge_sys.rseg should be NULL because purge should
complete processing of all the records but srv_purge_batch_size
can force the purge loop to exit before all the records are purged. */
purge_sys.rseg= nullptr;
purge_sys.next_stored= false;
}
DBUG_EXECUTE_IF("ib_undo_trunc",
sql_print_information("InnoDB: ib_undo_trunc");
log_buffer_flush_to_disk();
DBUG_SUICIDE(););
sql_print_information("InnoDB: Truncated %s", file_name);
ut_ad(space == purge_sys.truncate_undo_space.current);
purge_sys.truncate_undo_space.current= nullptr;
purge_sys.truncate_undo_space.last= space->id - srv_undo_space_id_start;
}
}
buf_block_t *purge_sys_t::get_page(page_id_t id)
{
buf_block_t*& undo_page= pages[id];
if (undo_page)
return undo_page;
mtr_t mtr;
mtr.start();
undo_page=
buf_page_get_gen(id, 0, RW_S_LATCH, nullptr, BUF_GET_POSSIBLY_FREED, &mtr);
if (UNIV_LIKELY(undo_page != nullptr))
{
undo_page->fix();
mtr.commit();
return undo_page;
}
mtr.commit();
pages.erase(id);
return nullptr;
}
void purge_sys_t::rseg_get_next_history_log()
{
fil_addr_t prev_log_addr;
#ifndef SUX_LOCK_GENERIC
ut_ad(rseg->latch.is_write_locked());
#endif
ut_a(rseg->last_page_no != FIL_NULL);
tail.trx_no= rseg->last_trx_no() + 1;
tail.undo_no= 0;
next_stored= false;
if (buf_block_t *undo_page=
get_page(page_id_t(rseg->space->id, rseg->last_page_no)))
{
const byte *log_hdr= undo_page->page.frame + rseg->last_offset();
prev_log_addr= flst_get_prev_addr(log_hdr + TRX_UNDO_HISTORY_NODE);
prev_log_addr.boffset = static_cast<uint16_t>(prev_log_addr.boffset -
TRX_UNDO_HISTORY_NODE);
}
else
prev_log_addr.page= FIL_NULL;
if (prev_log_addr.page == FIL_NULL)
rseg->last_page_no= FIL_NULL;
else
{
/* Read the previous log header. */
trx_id_t trx_no= 0;
if (const buf_block_t* undo_page=
get_page(page_id_t(rseg->space->id,
prev_log_addr.page)))
{
const byte *log_hdr= undo_page->page.frame + prev_log_addr.boffset;
trx_no= mach_read_from_8(log_hdr + TRX_UNDO_TRX_NO);
ut_ad(mach_read_from_2(log_hdr + TRX_UNDO_NEEDS_PURGE) <= 1);
}
if (UNIV_LIKELY(trx_no != 0))
{
rseg->last_page_no= prev_log_addr.page;
rseg->set_last_commit(prev_log_addr.boffset, trx_no);
/* Purge can also produce events, however these are already
ordered in the rollback segment and any user generated event
will be greater than the events that Purge produces. ie. Purge
can never produce events from an empty rollback segment. */
mysql_mutex_lock(&pq_mutex);
purge_queue.push(*rseg);
mysql_mutex_unlock(&pq_mutex);
}
}
rseg->latch.wr_unlock();
}
/** Position the purge sys "iterator" on the undo record to use for purging.
@retval false when nothing is to be purged
@retval true when purge_sys.rseg->latch was locked */
bool purge_sys_t::choose_next_log()
{
if (!rseg_iter.set_next())
return false;
hdr_offset= rseg->last_offset();
hdr_page_no= rseg->last_page_no;
if (!rseg->needs_purge)
{
purge_nothing:
page_no= hdr_page_no;
offset= 0;
tail.undo_no= 0;
}
else
{
page_id_t id{rseg->space->id, hdr_page_no};
buf_block_t *b= get_page(id);
if (!b)
goto purge_nothing;
const trx_undo_rec_t *undo_rec=
trx_undo_page_get_first_rec(b, hdr_page_no, hdr_offset);
if (!undo_rec)
{
if (mach_read_from_2(b->page.frame + hdr_offset + TRX_UNDO_NEXT_LOG))
goto purge_nothing;
const uint32_t next=
mach_read_from_4(TRX_UNDO_PAGE_HDR + TRX_UNDO_PAGE_NODE +
FLST_NEXT + FIL_ADDR_PAGE + b->page.frame);
if (next == FIL_NULL)
goto purge_nothing;
id.set_page_no(next);
b= get_page(id);
if (!b)
goto purge_nothing;
undo_rec=
trx_undo_page_get_first_rec(b, page_no, hdr_offset);
if (!undo_rec)
goto purge_nothing;
}
offset= page_offset(undo_rec);
tail.undo_no= trx_undo_rec_get_undo_no(undo_rec);
page_no= id.page_no();
}
next_stored= true;
return true;
}
/**
Get the next record to purge and update the info in the purge system.
@param roll_ptr undo log pointer to the record
@return buffer-fixed reference to undo log record
@retval {nullptr,1} if the whole undo log can skipped in purge
@retval {nullptr,0} if nothing is left, or on corruption */
inline trx_purge_rec_t purge_sys_t::get_next_rec(roll_ptr_t roll_ptr)
{
ut_ad(next_stored);
ut_ad(tail.trx_no < low_limit_no());
#ifndef SUX_LOCK_GENERIC
ut_ad(rseg->latch.is_write_locked());
#endif
if (!offset)
{
/* It is the dummy undo log record, which means that there is no
need to purge this undo log */
rseg_get_next_history_log();
/* Look for the next undo log and record to purge */
if (choose_next_log())
rseg->latch.wr_unlock();
return {nullptr, 1};
}
ut_ad(offset == uint16_t(roll_ptr));
page_id_t page_id{rseg->space->id, page_no};
bool locked= true;
buf_block_t *b= get_page(page_id);
if (UNIV_UNLIKELY(!b))
{
if (locked)
rseg->latch.wr_unlock();
return {nullptr, 0};
}
if (const trx_undo_rec_t *rec2=
trx_undo_page_get_next_rec(b, offset, hdr_page_no, hdr_offset))
{
got_rec:
ut_ad(page_no == page_id.page_no());
offset= page_offset(rec2);
tail.undo_no= trx_undo_rec_get_undo_no(rec2);
}
else if (hdr_page_no != page_no ||
!mach_read_from_2(b->page.frame + hdr_offset + TRX_UNDO_NEXT_LOG))
{
uint32_t next= mach_read_from_4(TRX_UNDO_PAGE_HDR + TRX_UNDO_PAGE_NODE +
FLST_NEXT + FIL_ADDR_PAGE + b->page.frame);
if (next != FIL_NULL)
{
page_id.set_page_no(next);
if (buf_block_t *next_page= get_page(page_id))
{
rec2= trx_undo_page_get_first_rec(next_page, hdr_page_no, hdr_offset);
if (rec2)
{
page_no= next;
goto got_rec;
}
}
}
goto got_no_rec;
}
else
{
got_no_rec:
rseg_get_next_history_log();
/* Look for the next undo log and record to purge */
locked= choose_next_log();
}
if (locked)
rseg->latch.wr_unlock();
return {b->page.frame + uint16_t(roll_ptr), roll_ptr};
}
inline trx_purge_rec_t purge_sys_t::fetch_next_rec()
{
roll_ptr_t roll_ptr;
if (!next_stored)
{
bool locked= choose_next_log();
ut_ad(locked == next_stored);
if (!locked)
goto got_nothing;
if (tail.trx_no >= low_limit_no())
{
rseg->latch.wr_unlock();
goto got_nothing;
}
/* row_purge_record_func() will later set ROLL_PTR_INSERT_FLAG for
TRX_UNDO_INSERT_REC */
roll_ptr= trx_undo_build_roll_ptr(false, trx_sys.rseg_id(rseg, true),
page_no, offset);
}
else if (tail.trx_no >= low_limit_no())
got_nothing:
return {nullptr, 0};
else
{
roll_ptr= trx_undo_build_roll_ptr(false, trx_sys.rseg_id(rseg, true),
page_no, offset);
rseg->latch.wr_lock(SRW_LOCK_CALL);
}
/* The following will advance the purge iterator. */
return get_next_rec(roll_ptr);
}
/** Close all tables that were opened in a purge batch for a worker.
@param node purge task context
@param thd purge coordinator thread handle */
static void trx_purge_close_tables(purge_node_t *node, THD *thd)
{
for (auto &t : node->tables)
{
if (!t.second.first);
else if (t.second.first == reinterpret_cast<dict_table_t*>(-1));
else
{
dict_table_close(t.second.first, false, thd, t.second.second);
t.second.first= reinterpret_cast<dict_table_t*>(-1);
}
}
}
void purge_sys_t::wait_FTS(bool also_sys)
{
bool paused;
do
{
latch.wr_lock(SRW_LOCK_CALL);
paused= m_FTS_paused || (also_sys && m_SYS_paused);
latch.wr_unlock();
std::this_thread::sleep_for(std::chrono::milliseconds(10));
}
while (paused);
}
__attribute__((nonnull))
/** Aqcuire a metadata lock on a table.
@param table table handle
@param mdl_context metadata lock acquisition context
@param mdl metadata lcok
@return table handle
@retval nullptr if the table is not found or accessible
@retval -1 if the purge of history must be suspended due to DDL */
static dict_table_t *trx_purge_table_acquire(dict_table_t *table,
MDL_context *mdl_context,
MDL_ticket **mdl)
{
ut_ad(dict_sys.frozen_not_locked());
*mdl= nullptr;
if (!table->is_readable() || table->corrupted)
{
table->release();
return nullptr;
}
size_t db_len= dict_get_db_name_len(table->name.m_name);
if (db_len == 0)
return table; /* InnoDB system tables are not covered by MDL */
if (purge_sys.must_wait_FTS())
{
must_wait:
table->release();
return reinterpret_cast<dict_table_t*>(-1);
}
char db_buf[NAME_LEN + 1];
char tbl_buf[NAME_LEN + 1];
size_t tbl_len;
if (!table->parse_name<true>(db_buf, tbl_buf, &db_len, &tbl_len))
/* The name of an intermediate table starts with #sql */
return table;
{
MDL_request request;
MDL_REQUEST_INIT(&request,MDL_key::TABLE, db_buf, tbl_buf, MDL_SHARED,
MDL_EXPLICIT);
if (mdl_context->try_acquire_lock(&request))
goto must_wait;
*mdl= request.ticket;
if (!*mdl)
goto must_wait;
}
return table;
}
/** Open a table handle for the purge of committed transaction history
@param table_id InnoDB table identifier
@param mdl_context metadata lock acquisition context
@param mdl metadata lcok
@return table handle
@retval nullptr if the table is not found or accessible
@retval -1 if the purge of history must be suspended due to DDL */
static dict_table_t *trx_purge_table_open(table_id_t table_id,
MDL_context *mdl_context,
MDL_ticket **mdl)
{
dict_sys.freeze(SRW_LOCK_CALL);
dict_table_t *table= dict_sys.find_table(table_id);
if (table)
table->acquire();
else
{
dict_sys.unfreeze();
dict_sys.lock(SRW_LOCK_CALL);
table= dict_load_table_on_id(table_id, DICT_ERR_IGNORE_FK_NOKEY);
if (table)
table->acquire();
dict_sys.unlock();
if (!table)
return nullptr;
dict_sys.freeze(SRW_LOCK_CALL);
}
table= trx_purge_table_acquire(table, mdl_context, mdl);
dict_sys.unfreeze();
return table;
}
ATTRIBUTE_COLD
dict_table_t *purge_sys_t::close_and_reopen(table_id_t id, THD *thd,
MDL_ticket **mdl)
{
MDL_context *mdl_context= static_cast<MDL_context*>(thd_mdl_context(thd));
ut_ad(mdl_context);
retry:
ut_ad(m_active);
for (que_thr_t *thr= UT_LIST_GET_FIRST(purge_sys.query->thrs); thr;
thr= UT_LIST_GET_NEXT(thrs, thr))
{
purge_node_t *node= static_cast<purge_node_t*>(thr->child);
trx_purge_close_tables(node, thd);
}
m_active= false;
wait_FTS(false);
m_active= true;
dict_table_t *table= trx_purge_table_open(id, mdl_context, mdl);
if (table == reinterpret_cast<dict_table_t*>(-1))
goto retry;
for (que_thr_t *thr= UT_LIST_GET_FIRST(purge_sys.query->thrs); thr;
thr= UT_LIST_GET_NEXT(thrs, thr))
{
purge_node_t *node= static_cast<purge_node_t*>(thr->child);
for (auto &t : node->tables)
{
if (t.second.first)
{
t.second.first= trx_purge_table_open(t.first, mdl_context,
&t.second.second);
if (t.second.first == reinterpret_cast<dict_table_t*>(-1))
{
if (table)
dict_table_close(table, false, thd, *mdl);
goto retry;
}
}
}
}
return table;
}
/** Run a purge batch.
@param n_purge_threads number of purge threads
@return new purge_sys.head */
static purge_sys_t::iterator
trx_purge_attach_undo_recs(ulint n_purge_threads, THD *thd)
{
que_thr_t* thr;
ulint i;
ut_a(n_purge_threads > 0);
ut_a(UT_LIST_GET_LEN(purge_sys.query->thrs) >= n_purge_threads);
purge_sys_t::iterator head = purge_sys.tail;
#ifdef UNIV_DEBUG
i = 0;
/* Debug code to validate some pre-requisites and reset done flag. */
for (thr = UT_LIST_GET_FIRST(purge_sys.query->thrs);
thr != NULL && i < n_purge_threads;
thr = UT_LIST_GET_NEXT(thrs, thr), ++i) {
purge_node_t* node;
/* Get the purge node. */
node = (purge_node_t*) thr->child;
ut_ad(que_node_get_type(node) == QUE_NODE_PURGE);
ut_ad(node->undo_recs.empty());
ut_ad(!node->in_progress);
ut_d(node->in_progress = true);
}
/* There should never be fewer nodes than threads, the inverse
however is allowed because we only use purge threads as needed. */
ut_ad(i == n_purge_threads);
#endif
/* Fetch and parse the UNDO records. The UNDO records are added
to a per purge node vector. */
thr = UT_LIST_GET_FIRST(purge_sys.query->thrs);
ut_ad(head <= purge_sys.tail);
i = 0;
std::unordered_map<table_id_t, purge_node_t*>
table_id_map(TRX_PURGE_TABLE_BUCKETS);
purge_sys.m_active = true;
MDL_context* const mdl_context
= static_cast<MDL_context*>(thd_mdl_context(thd));
ut_ad(mdl_context);
const size_t max_pages = std::min(buf_pool.curr_size * 3 / 4,
size_t{srv_purge_batch_size});
while (UNIV_LIKELY(srv_undo_sources) || !srv_fast_shutdown) {
/* Track the max {trx_id, undo_no} for truncating the
UNDO logs once we have purged the records. */
if (head <= purge_sys.tail) {
head = purge_sys.tail;
}
/* Fetch the next record, and advance the purge_sys.tail. */
trx_purge_rec_t purge_rec = purge_sys.fetch_next_rec();
if (!purge_rec.undo_rec) {
if (!purge_rec.roll_ptr) {
break;
}
ut_ad(purge_rec.roll_ptr == 1);
continue;
}
table_id_t table_id = trx_undo_rec_get_table_id(
purge_rec.undo_rec);
purge_node_t*& table_node = table_id_map[table_id];
if (!table_node) {
std::pair<dict_table_t*,MDL_ticket*> p;
p.first = trx_purge_table_open(table_id, mdl_context,
&p.second);
if (p.first == reinterpret_cast<dict_table_t*>(-1)) {
p.first = purge_sys.close_and_reopen(
table_id, thd, &p.second);
}
thr = UT_LIST_GET_NEXT(thrs, thr);
if (!(++i % n_purge_threads)) {
thr = UT_LIST_GET_FIRST(
purge_sys.query->thrs);
}
table_node = static_cast<purge_node_t*>(thr->child);
ut_a(que_node_get_type(table_node) == QUE_NODE_PURGE);
ut_d(auto i=)
table_node->tables.emplace(table_id, p);
ut_ad(i.second);
if (p.first) {
goto enqueue;
}
} else if (table_node->tables[table_id].first) {
enqueue:
table_node->undo_recs.push(purge_rec);
}
if (purge_sys.n_pages_handled() >= max_pages) {
break;
}
}
purge_sys.m_active = false;
ut_ad(head <= purge_sys.tail);
return head;
}
extern tpool::waitable_task purge_worker_task;
/** Wait for pending purge jobs to complete. */
static void trx_purge_wait_for_workers_to_complete()
{
const bool notify_wait{purge_worker_task.is_running()};
if (notify_wait)
tpool::tpool_wait_begin();
purge_worker_task.wait();
if (notify_wait)
tpool::tpool_wait_end();
/* There should be no outstanding tasks as long
as the worker threads are active. */
ut_ad(srv_get_task_queue_length() == 0);
}
TRANSACTIONAL_INLINE
void purge_sys_t::batch_cleanup(const purge_sys_t::iterator &head)
{
/* Release the undo pages. */
for (auto p : pages)
p.second->unfix();
pages.clear();
pages.reserve(srv_purge_batch_size);
/* This is only invoked only by the purge coordinator,
which is the only thread that can modify our inputs head, tail, view.
Therefore, we only need to protect end_view from concurrent reads. */
/* Limit the end_view similar to what trx_purge_truncate_history() does. */
const trx_id_t trx_no= head.trx_no ? head.trx_no : tail.trx_no;
#ifdef SUX_LOCK_GENERIC
end_latch.wr_lock();
#else
transactional_lock_guard<srw_spin_lock_low> g(end_latch);
#endif
this->head= head;
end_view= view;
end_view.clamp_low_limit_id(trx_no);
#ifdef SUX_LOCK_GENERIC
end_latch.wr_unlock();
#endif
}
/**
Run a purge batch.
@param n_tasks number of purge tasks to submit to the queue
@param history_size trx_sys.history_size()
@return number of undo log pages handled in the batch */
TRANSACTIONAL_TARGET ulint trx_purge(ulint n_tasks, ulint history_size)
{
ut_ad(n_tasks > 0);
purge_sys.clone_oldest_view();
#ifdef UNIV_DEBUG
if (srv_purge_view_update_only_debug) {
return(0);
}
#endif /* UNIV_DEBUG */
THD* const thd = current_thd;
/* Fetch the UNDO recs that need to be purged. */
const purge_sys_t::iterator head
= trx_purge_attach_undo_recs(n_tasks, thd);
const size_t n_pages = purge_sys.n_pages_handled();
{
ulint delay = n_pages ? srv_max_purge_lag : 0;
if (UNIV_UNLIKELY(delay)) {
if (delay >= history_size) {
no_throttle:
delay = 0;
} else if (const ulint max_delay =
srv_max_purge_lag_delay) {
delay = std::min(max_delay,
10000 * history_size / delay
- 5000);
} else {
goto no_throttle;
}
}
srv_dml_needed_delay = delay;
}
que_thr_t* thr = nullptr;
/* Submit tasks to workers queue if using multi-threaded purge. */
for (ulint i = n_tasks; --i; ) {
thr = que_fork_scheduler_round_robin(purge_sys.query, thr);
ut_a(thr);
srv_que_task_enqueue_low(thr);
srv_thread_pool->submit_task(&purge_worker_task);
}
thr = que_fork_scheduler_round_robin(purge_sys.query, thr);
que_run_threads(thr);
trx_purge_wait_for_workers_to_complete();
for (thr = UT_LIST_GET_FIRST(purge_sys.query->thrs); thr;
thr = UT_LIST_GET_NEXT(thrs, thr)) {
purge_node_t* node = static_cast<purge_node_t*>(thr->child);
trx_purge_close_tables(node, thd);
node->tables.clear();
}
purge_sys.batch_cleanup(head);
MONITOR_INC_VALUE(MONITOR_PURGE_INVOKED, 1);
MONITOR_INC_VALUE(MONITOR_PURGE_N_PAGE_HANDLED, n_pages);
return n_pages;
}
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