Browse Source
MDEV-13690: Remove unnecessary innodb_use_mtflush, innodb_mtflush_threads parameters and related code
MDEV-13690: Remove unnecessary innodb_use_mtflush, innodb_mtflush_threads parameters and related code
Users can use innodb-page-cleaners instead.pull/394/merge
Jan Lindström
8 years ago
16 changed files with 1 additions and 1039 deletions
-
21mysql-test/suite/sys_vars/r/innodb_mtflush_threads_basic.result
-
21mysql-test/suite/sys_vars/r/innodb_use_mtflush_basic.result
-
9mysql-test/suite/sys_vars/r/sysvars_innodb,32bit.rdiff
-
28mysql-test/suite/sys_vars/r/sysvars_innodb.result
-
21mysql-test/suite/sys_vars/t/innodb_mtflush_threads_basic.test
-
22mysql-test/suite/sys_vars/t/innodb_use_mtflush_basic.test
-
1storage/innobase/CMakeLists.txt
-
10storage/innobase/buf/buf0flu.cc
-
736storage/innobase/buf/buf0mtflu.cc
-
34storage/innobase/handler/ha_innodb.cc
-
95storage/innobase/include/buf0mtflu.h
-
10storage/innobase/include/srv0srv.h
-
2storage/innobase/include/sync0types.h
-
4storage/innobase/srv/srv0srv.cc
-
22storage/innobase/srv/srv0start.cc
-
4storage/innobase/sync/sync0debug.cc
@ -1,21 +0,0 @@ |
|||
select @@global.innodb_mtflush_threads; |
|||
@@global.innodb_mtflush_threads |
|||
8 |
|||
select @@session.innodb_mtflush_threads; |
|||
ERROR HY000: Variable 'innodb_mtflush_threads' is a GLOBAL variable |
|||
show global variables like 'innodb_mtflush_threads'; |
|||
Variable_name Value |
|||
innodb_mtflush_threads 8 |
|||
show session variables like 'innodb_mtflush_threads'; |
|||
Variable_name Value |
|||
innodb_mtflush_threads 8 |
|||
select * from information_schema.global_variables where variable_name='innodb_mtflush_threads'; |
|||
VARIABLE_NAME VARIABLE_VALUE |
|||
INNODB_MTFLUSH_THREADS 8 |
|||
select * from information_schema.session_variables where variable_name='innodb_mtflush_threads'; |
|||
VARIABLE_NAME VARIABLE_VALUE |
|||
INNODB_MTFLUSH_THREADS 8 |
|||
set global innodb_mtflush_threads=1; |
|||
ERROR HY000: Variable 'innodb_mtflush_threads' is a read only variable |
|||
set session innodb_mtflush_threads=1; |
|||
ERROR HY000: Variable 'innodb_mtflush_threads' is a read only variable |
|||
@ -1,21 +0,0 @@ |
|||
select @@global.innodb_use_mtflush; |
|||
@@global.innodb_use_mtflush |
|||
0 |
|||
select @@session.innodb_use_mtflush; |
|||
ERROR HY000: Variable 'innodb_use_mtflush' is a GLOBAL variable |
|||
show global variables like 'innodb_use_mtflush'; |
|||
Variable_name Value |
|||
innodb_use_mtflush OFF |
|||
show session variables like 'innodb_use_mtflush'; |
|||
Variable_name Value |
|||
innodb_use_mtflush OFF |
|||
select * from information_schema.global_variables where variable_name='innodb_use_mtflush'; |
|||
VARIABLE_NAME VARIABLE_VALUE |
|||
INNODB_USE_MTFLUSH OFF |
|||
select * from information_schema.session_variables where variable_name='innodb_use_mtflush'; |
|||
VARIABLE_NAME VARIABLE_VALUE |
|||
INNODB_USE_MTFLUSH OFF |
|||
set global innodb_use_mtflush=1; |
|||
ERROR HY000: Variable 'innodb_use_mtflush' is a read only variable |
|||
set session innodb_use_mtflush=1; |
|||
ERROR HY000: Variable 'innodb_use_mtflush' is a read only variable |
|||
@ -1,21 +0,0 @@ |
|||
--source include/have_innodb.inc |
|||
# bool readonly |
|||
|
|||
# |
|||
# show values; |
|||
# |
|||
select @@global.innodb_mtflush_threads; |
|||
--error ER_INCORRECT_GLOBAL_LOCAL_VAR |
|||
select @@session.innodb_mtflush_threads; |
|||
show global variables like 'innodb_mtflush_threads'; |
|||
show session variables like 'innodb_mtflush_threads'; |
|||
select * from information_schema.global_variables where variable_name='innodb_mtflush_threads'; |
|||
select * from information_schema.session_variables where variable_name='innodb_mtflush_threads'; |
|||
|
|||
# |
|||
# show that it's read-only |
|||
# |
|||
--error ER_INCORRECT_GLOBAL_LOCAL_VAR |
|||
set global innodb_mtflush_threads=1; |
|||
--error ER_INCORRECT_GLOBAL_LOCAL_VAR |
|||
set session innodb_mtflush_threads=1; |
|||
@ -1,22 +0,0 @@ |
|||
--source include/have_innodb.inc |
|||
# bool readonly |
|||
|
|||
# |
|||
# show values; |
|||
# |
|||
select @@global.innodb_use_mtflush; |
|||
--error ER_INCORRECT_GLOBAL_LOCAL_VAR |
|||
select @@session.innodb_use_mtflush; |
|||
show global variables like 'innodb_use_mtflush'; |
|||
show session variables like 'innodb_use_mtflush'; |
|||
select * from information_schema.global_variables where variable_name='innodb_use_mtflush'; |
|||
select * from information_schema.session_variables where variable_name='innodb_use_mtflush'; |
|||
|
|||
# |
|||
# show that it's read-only |
|||
# |
|||
--error ER_INCORRECT_GLOBAL_LOCAL_VAR |
|||
set global innodb_use_mtflush=1; |
|||
--error ER_INCORRECT_GLOBAL_LOCAL_VAR |
|||
set session innodb_use_mtflush=1; |
|||
|
|||
@ -1,736 +0,0 @@ |
|||
/*****************************************************************************
|
|||
|
|||
Copyright (C) 2013, 2014, Fusion-io. All Rights Reserved. |
|||
Copyright (C) 2013, 2017, MariaDB Corporation. All Rights Reserved. |
|||
|
|||
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 St, Fifth Floor, Boston, MA 02110-1301 USA |
|||
|
|||
*****************************************************************************/ |
|||
|
|||
/******************************************************************//**
|
|||
@file buf/buf0mtflu.cc |
|||
Multi-threaded flush method implementation |
|||
|
|||
Created 06/11/2013 Dhananjoy Das DDas@fusionio.com |
|||
Modified 12/12/2013 Jan Lindström jan.lindstrom@skysql.com |
|||
Modified 03/02/2014 Dhananjoy Das DDas@fusionio.com |
|||
Modified 06/02/2014 Jan Lindström jan.lindstrom@skysql.com |
|||
***********************************************************************/ |
|||
|
|||
#include "buf0buf.h"
|
|||
#include "buf0flu.h"
|
|||
#include "buf0mtflu.h"
|
|||
#include "buf0checksum.h"
|
|||
#include "srv0start.h"
|
|||
#include "srv0srv.h"
|
|||
#include "page0zip.h"
|
|||
#include "ut0byte.h"
|
|||
#include "ut0lst.h"
|
|||
#include "page0page.h"
|
|||
#include "fil0fil.h"
|
|||
#include "buf0lru.h"
|
|||
#include "buf0rea.h"
|
|||
#include "ibuf0ibuf.h"
|
|||
#include "log0log.h"
|
|||
#include "os0file.h"
|
|||
#include "trx0sys.h"
|
|||
#include "srv0mon.h"
|
|||
#include "mysql/plugin.h"
|
|||
#include "mysql/service_thd_wait.h"
|
|||
#include "fil0pagecompress.h"
|
|||
|
|||
#define MT_COMP_WATER_MARK 50
|
|||
/** Time to wait for a message. */ |
|||
#define MT_WAIT_IN_USECS 5000000
|
|||
|
|||
/* Work item status */ |
|||
typedef enum wrk_status { |
|||
WRK_ITEM_UNSET=0, /*!< Work item is not set */ |
|||
WRK_ITEM_START=1, /*!< Processing of work item has started */ |
|||
WRK_ITEM_DONE=2, /*!< Processing is done usually set to
|
|||
SUCCESS/FAILED */ |
|||
WRK_ITEM_SUCCESS=2, /*!< Work item successfully processed */ |
|||
WRK_ITEM_FAILED=3, /*!< Work item process failed */ |
|||
WRK_ITEM_EXIT=4, /*!< Exiting */ |
|||
WRK_ITEM_SET=5, /*!< Work item is set */ |
|||
WRK_ITEM_STATUS_UNDEFINED |
|||
} wrk_status_t; |
|||
|
|||
/* Work item task type */ |
|||
typedef enum mt_wrk_tsk { |
|||
MT_WRK_NONE=0, /*!< Exit queue-wait */ |
|||
MT_WRK_WRITE=1, /*!< Flush operation */ |
|||
MT_WRK_READ=2, /*!< Read operation */ |
|||
MT_WRK_UNDEFINED |
|||
} mt_wrk_tsk_t; |
|||
|
|||
/* Work thread status */ |
|||
typedef enum wthr_status { |
|||
WTHR_NOT_INIT=0, /*!< Work thread not initialized */ |
|||
WTHR_INITIALIZED=1, /*!< Work thread initialized */ |
|||
WTHR_SIG_WAITING=2, /*!< Work thread wating signal */ |
|||
WTHR_RUNNING=3, /*!< Work thread running */ |
|||
WTHR_NO_WORK=4, /*!< Work thread has no work */ |
|||
WTHR_KILL_IT=5, /*!< Work thread should exit */ |
|||
WTHR_STATUS_UNDEFINED |
|||
} wthr_status_t; |
|||
|
|||
/* Write work task */ |
|||
typedef struct wr_tsk { |
|||
buf_pool_t *buf_pool; /*!< buffer-pool instance */ |
|||
buf_flush_t flush_type; /*!< flush-type for buffer-pool
|
|||
flush operation */ |
|||
ulint min; /*!< minimum number of pages
|
|||
requested to be flushed */ |
|||
lsn_t lsn_limit; /*!< lsn limit for the buffer-pool
|
|||
flush operation */ |
|||
} wr_tsk_t; |
|||
|
|||
/* Read work task */ |
|||
typedef struct rd_tsk { |
|||
buf_pool_t *page_pool; /*!< list of pages to decompress; */ |
|||
} rd_tsk_t; |
|||
|
|||
/* Work item */ |
|||
typedef struct wrk_itm |
|||
{ |
|||
mt_wrk_tsk_t tsk; /*!< Task type. Based on task-type
|
|||
one of the entries wr_tsk/rd_tsk |
|||
will be used */ |
|||
wr_tsk_t wr; /*!< Flush page list */ |
|||
rd_tsk_t rd; /*!< Decompress page list */ |
|||
ulint n_flushed; /*!< Number of flushed pages */ |
|||
ulint n_evicted; /*!< Number of evicted pages */ |
|||
os_thread_id_t id_usr; /*!< Thread-id currently working */ |
|||
wrk_status_t wi_status; /*!< Work item status */ |
|||
mem_heap_t *wheap; /*!< Heap were to allocate memory
|
|||
for queue nodes */ |
|||
mem_heap_t *rheap; |
|||
} wrk_t; |
|||
|
|||
struct thread_data_t |
|||
{ |
|||
os_thread_id_t wthread_id; /*!< Identifier */ |
|||
wthr_status_t wt_status; /*!< Worker thread status */ |
|||
}; |
|||
|
|||
/** Flush dirty pages when multi-threaded flush is used. */ |
|||
extern "C" UNIV_INTERN |
|||
os_thread_ret_t |
|||
DECLARE_THREAD(mtflush_io_thread)(void* arg); |
|||
|
|||
/** Thread syncronization data */ |
|||
struct thread_sync_t |
|||
{ |
|||
/** Constructor */ |
|||
thread_sync_t(ulint n_threads, mem_heap_t* wheap, mem_heap_t* rheap) : |
|||
thread_global_mtx(), n_threads(n_threads), |
|||
wq(ib_wqueue_create()), |
|||
wr_cq(ib_wqueue_create()), |
|||
rd_cq(ib_wqueue_create()), |
|||
wheap(wheap), rheap(rheap), gwt_status(), |
|||
thread_data(static_cast<thread_data_t*>( |
|||
mem_heap_zalloc(wheap, n_threads |
|||
* sizeof *thread_data))) |
|||
{ |
|||
ut_a(wq); |
|||
ut_a(wr_cq); |
|||
ut_a(rd_cq); |
|||
ut_a(thread_data); |
|||
|
|||
mutex_create(LATCH_ID_MTFLUSH_THREAD_MUTEX, |
|||
&thread_global_mtx); |
|||
|
|||
/* Create threads for page-compression-flush */ |
|||
for(ulint i = 0; i < n_threads; i++) { |
|||
thread_data[i].wt_status = WTHR_INITIALIZED; |
|||
os_thread_create(mtflush_io_thread, this, |
|||
&thread_data[i].wthread_id); |
|||
} |
|||
} |
|||
|
|||
/** Destructor */ |
|||
~thread_sync_t() |
|||
{ |
|||
ut_a(ib_wqueue_is_empty(wq)); |
|||
ut_a(ib_wqueue_is_empty(wr_cq)); |
|||
ut_a(ib_wqueue_is_empty(rd_cq)); |
|||
|
|||
/* Free all queues */ |
|||
ib_wqueue_free(wq); |
|||
ib_wqueue_free(wr_cq); |
|||
ib_wqueue_free(rd_cq); |
|||
|
|||
mutex_free(&thread_global_mtx); |
|||
|
|||
mem_heap_free(rheap); |
|||
mem_heap_free(wheap); |
|||
} |
|||
|
|||
/* Global variables used by all threads */ |
|||
ib_mutex_t thread_global_mtx; /*!< Mutex used protecting below
|
|||
variables */ |
|||
ulint n_threads; /*!< Number of threads */ |
|||
ib_wqueue_t *wq; /*!< Work Queue */ |
|||
ib_wqueue_t *wr_cq; /*!< Write Completion Queue */ |
|||
ib_wqueue_t *rd_cq; /*!< Read Completion Queue */ |
|||
mem_heap_t* wheap; /*!< Work heap where memory
|
|||
is allocated */ |
|||
mem_heap_t* rheap; /*!< Work heap where memory
|
|||
is allocated */ |
|||
wthr_status_t gwt_status; /*!< Global thread status */ |
|||
|
|||
/* Variables used by only one thread at a time */ |
|||
thread_data_t* thread_data; /*!< Thread specific data */ |
|||
}; |
|||
|
|||
static thread_sync_t* mtflush_ctx; |
|||
static ib_mutex_t mtflush_mtx; |
|||
|
|||
/******************************************************************//**
|
|||
Return true if multi-threaded flush is initialized |
|||
@return true if initialized */ |
|||
bool |
|||
buf_mtflu_init_done(void) |
|||
/*=====================*/ |
|||
{ |
|||
return(mtflush_ctx != NULL); |
|||
} |
|||
|
|||
/******************************************************************//**
|
|||
Fush buffer pool instance. |
|||
@return number of flushed pages, or 0 if error happened |
|||
*/ |
|||
static |
|||
ulint |
|||
buf_mtflu_flush_pool_instance( |
|||
/*==========================*/ |
|||
wrk_t *work_item) /*!< inout: work item to be flushed */ |
|||
{ |
|||
flush_counters_t n; |
|||
ut_a(work_item != NULL); |
|||
ut_a(work_item->wr.buf_pool != NULL); |
|||
|
|||
if (!buf_flush_start(work_item->wr.buf_pool, work_item->wr.flush_type)) { |
|||
/* We have two choices here. If lsn_limit was
|
|||
specified then skipping an instance of buffer |
|||
pool means we cannot guarantee that all pages |
|||
up to lsn_limit has been flushed. We can |
|||
return right now with failure or we can try |
|||
to flush remaining buffer pools up to the |
|||
lsn_limit. We attempt to flush other buffer |
|||
pools based on the assumption that it will |
|||
help in the retry which will follow the |
|||
failure. */ |
|||
#ifdef UNIV_MTFLUSH_DEBUG
|
|||
fprintf(stderr, "InnoDB: Note: buf flush start failed there is already active flush for this buffer pool.\n"); |
|||
#endif
|
|||
return 0; |
|||
} |
|||
|
|||
memset(&n, 0, sizeof(flush_counters_t)); |
|||
|
|||
if (work_item->wr.flush_type == BUF_FLUSH_LRU) { |
|||
/* srv_LRU_scan_depth can be arbitrarily large value.
|
|||
* We cap it with current LRU size. |
|||
*/ |
|||
buf_pool_mutex_enter(work_item->wr.buf_pool); |
|||
work_item->wr.min = UT_LIST_GET_LEN(work_item->wr.buf_pool->LRU); |
|||
buf_pool_mutex_exit(work_item->wr.buf_pool); |
|||
work_item->wr.min = ut_min((ulint)srv_LRU_scan_depth,(ulint)work_item->wr.min); |
|||
} |
|||
|
|||
buf_flush_batch(work_item->wr.buf_pool, |
|||
work_item->wr.flush_type, |
|||
work_item->wr.min, |
|||
work_item->wr.lsn_limit, |
|||
&n); |
|||
|
|||
buf_flush_end(work_item->wr.buf_pool, work_item->wr.flush_type); |
|||
buf_flush_common(work_item->wr.flush_type, n.flushed); |
|||
work_item->n_flushed = n.flushed; |
|||
work_item->n_evicted = n.evicted; |
|||
|
|||
return work_item->n_flushed; |
|||
} |
|||
|
|||
/******************************************************************//**
|
|||
Worker function to wait for work items and processing them and |
|||
sending reply back. |
|||
*/ |
|||
static |
|||
void |
|||
mtflush_service_io( |
|||
/*===============*/ |
|||
thread_sync_t* mtflush_io, /*!< inout: multi-threaded flush
|
|||
syncronization data */ |
|||
thread_data_t* thread_data) /* Thread status data */ |
|||
{ |
|||
wrk_t *work_item = NULL; |
|||
ulint n_flushed=0; |
|||
|
|||
ut_a(mtflush_io != NULL); |
|||
ut_a(thread_data != NULL); |
|||
|
|||
thread_data->wt_status = WTHR_SIG_WAITING; |
|||
|
|||
work_item = (wrk_t *)ib_wqueue_nowait(mtflush_io->wq); |
|||
|
|||
if (work_item == NULL) { |
|||
work_item = (wrk_t *)ib_wqueue_wait(mtflush_io->wq); |
|||
} |
|||
|
|||
if (work_item) { |
|||
thread_data->wt_status = WTHR_RUNNING; |
|||
} else { |
|||
/* Thread did not get any work */ |
|||
thread_data->wt_status = WTHR_NO_WORK; |
|||
return; |
|||
} |
|||
|
|||
if (work_item->wi_status != WRK_ITEM_EXIT) { |
|||
work_item->wi_status = WRK_ITEM_SET; |
|||
} |
|||
|
|||
#ifdef UNIV_MTFLUSH_DEBUG
|
|||
ut_a(work_item->id_usr == 0); |
|||
#endif
|
|||
work_item->id_usr = os_thread_get_curr_id(); |
|||
|
|||
/* This works as a producer/consumer model, where in tasks are
|
|||
* inserted into the work-queue (wq) and completions are based |
|||
* on the type of operations performed and as a result the WRITE/ |
|||
* compression/flush operation completions get posted to wr_cq. |
|||
* And READ/decompress operations completions get posted to rd_cq. |
|||
* in future we may have others. |
|||
*/ |
|||
|
|||
switch(work_item->tsk) { |
|||
case MT_WRK_NONE: |
|||
ut_a(work_item->wi_status == WRK_ITEM_EXIT); |
|||
work_item->wi_status = WRK_ITEM_EXIT; |
|||
ib_wqueue_add(mtflush_io->wr_cq, work_item, work_item->rheap); |
|||
thread_data->wt_status = WTHR_KILL_IT; |
|||
break; |
|||
|
|||
case MT_WRK_WRITE: |
|||
ut_a(work_item->wi_status == WRK_ITEM_SET); |
|||
work_item->wi_status = WRK_ITEM_START; |
|||
/* Process work item */ |
|||
if (0 == (n_flushed = buf_mtflu_flush_pool_instance(work_item))) { |
|||
work_item->wi_status = WRK_ITEM_FAILED; |
|||
} |
|||
work_item->wi_status = WRK_ITEM_SUCCESS; |
|||
ib_wqueue_add(mtflush_io->wr_cq, work_item, work_item->rheap); |
|||
break; |
|||
|
|||
case MT_WRK_READ: |
|||
ut_a(0); |
|||
break; |
|||
|
|||
default: |
|||
/* None other than Write/Read handling planned */ |
|||
ut_a(0); |
|||
break; |
|||
} |
|||
} |
|||
|
|||
/** Flush dirty pages when multi-threaded flush is used. */ |
|||
extern "C" UNIV_INTERN |
|||
os_thread_ret_t |
|||
DECLARE_THREAD(mtflush_io_thread)(void* arg) |
|||
{ |
|||
thread_sync_t *mtflush_io = ((thread_sync_t *)arg); |
|||
thread_data_t *this_thread_data = NULL; |
|||
ulint i; |
|||
|
|||
/* Find correct slot for this thread */ |
|||
mutex_enter(&(mtflush_io->thread_global_mtx)); |
|||
for(i=0; i < mtflush_io->n_threads; i ++) { |
|||
if (mtflush_io->thread_data[i].wthread_id == os_thread_get_curr_id()) { |
|||
break; |
|||
} |
|||
} |
|||
|
|||
ut_a(i <= mtflush_io->n_threads); |
|||
this_thread_data = &mtflush_io->thread_data[i]; |
|||
mutex_exit(&(mtflush_io->thread_global_mtx)); |
|||
|
|||
while (TRUE) { |
|||
|
|||
#ifdef UNIV_MTFLUSH_DEBUG
|
|||
fprintf(stderr, "InnoDB: Note. Thread %lu work queue len %lu return queue len %lu\n", |
|||
os_thread_get_curr_id(), |
|||
ib_wqueue_len(mtflush_io->wq), |
|||
ib_wqueue_len(mtflush_io->wr_cq)); |
|||
#endif /* UNIV_MTFLUSH_DEBUG */
|
|||
|
|||
mtflush_service_io(mtflush_io, this_thread_data); |
|||
|
|||
|
|||
if (this_thread_data->wt_status == WTHR_KILL_IT) { |
|||
break; |
|||
} |
|||
} |
|||
|
|||
os_thread_exit(); |
|||
OS_THREAD_DUMMY_RETURN; |
|||
} |
|||
|
|||
/******************************************************************//**
|
|||
Add exit work item to work queue to signal multi-threded flush |
|||
threads that they should exit. |
|||
*/ |
|||
void |
|||
buf_mtflu_io_thread_exit(void) |
|||
/*==========================*/ |
|||
{ |
|||
ulint i; |
|||
thread_sync_t* mtflush_io = mtflush_ctx; |
|||
wrk_t* work_item = NULL; |
|||
|
|||
ut_a(mtflush_io != NULL); |
|||
|
|||
/* Allocate work items for shutdown message */ |
|||
work_item = (wrk_t*)mem_heap_alloc(mtflush_io->wheap, sizeof(wrk_t)*srv_mtflush_threads); |
|||
|
|||
/* Confirm if the io-thread KILL is in progress, bailout */ |
|||
if (mtflush_io->gwt_status == WTHR_KILL_IT) { |
|||
return; |
|||
} |
|||
|
|||
mtflush_io->gwt_status = WTHR_KILL_IT; |
|||
|
|||
/* This lock is to safequard against timing bug: flush request take
|
|||
this mutex before sending work items to be processed by flush |
|||
threads. Inside flush thread we assume that work queue contains only |
|||
a constant number of items. Thus, we may not install new work items |
|||
below before all previous ones are processed. This mutex is released |
|||
by flush request after all work items sent to flush threads have |
|||
been processed. Thus, we can get this mutex if and only if work |
|||
queue is empty. */ |
|||
|
|||
mutex_enter(&mtflush_mtx); |
|||
|
|||
/* Make sure the work queue is empty */ |
|||
ut_a(ib_wqueue_is_empty(mtflush_io->wq)); |
|||
|
|||
/* Send one exit work item/thread */ |
|||
for (i=0; i < (ulint)srv_mtflush_threads; i++) { |
|||
work_item[i].tsk = MT_WRK_NONE; |
|||
work_item[i].wi_status = WRK_ITEM_EXIT; |
|||
work_item[i].wheap = mtflush_io->wheap; |
|||
work_item[i].rheap = mtflush_io->rheap; |
|||
work_item[i].id_usr = 0; |
|||
|
|||
ib_wqueue_add(mtflush_io->wq, |
|||
(void *)&(work_item[i]), |
|||
mtflush_io->wheap); |
|||
} |
|||
|
|||
/* Requests sent */ |
|||
mutex_exit(&mtflush_mtx); |
|||
|
|||
/* Wait until all work items on a work queue are processed */ |
|||
while(!ib_wqueue_is_empty(mtflush_io->wq)) { |
|||
/* Wait */ |
|||
os_thread_sleep(MT_WAIT_IN_USECS); |
|||
} |
|||
|
|||
ut_a(ib_wqueue_is_empty(mtflush_io->wq)); |
|||
|
|||
/* Collect all work done items */ |
|||
for (i=0; i < (ulint)srv_mtflush_threads;) { |
|||
wrk_t* work_item = NULL; |
|||
|
|||
work_item = (wrk_t *)ib_wqueue_timedwait(mtflush_io->wr_cq, MT_WAIT_IN_USECS); |
|||
|
|||
/* If we receive reply to work item and it's status is exit,
|
|||
thead has processed this message and existed */ |
|||
if (work_item && work_item->wi_status == WRK_ITEM_EXIT) { |
|||
i++; |
|||
} |
|||
} |
|||
|
|||
/* Wait about 1/2 sec to allow threads really exit */ |
|||
os_thread_sleep(MT_WAIT_IN_USECS); |
|||
|
|||
/* Make sure that work queue is empty */ |
|||
while(!ib_wqueue_is_empty(mtflush_io->wq)) |
|||
{ |
|||
ib_wqueue_nowait(mtflush_io->wq); |
|||
} |
|||
|
|||
mtflush_ctx->~thread_sync_t(); |
|||
mtflush_ctx = NULL; |
|||
|
|||
mutex_free(&mtflush_mtx); |
|||
} |
|||
|
|||
/******************************************************************//**
|
|||
Initialize multi-threaded flush thread syncronization data. |
|||
@return Initialized multi-threaded flush thread syncroniztion data. */ |
|||
void* |
|||
buf_mtflu_handler_init( |
|||
/*===================*/ |
|||
ulint n_threads, /*!< in: Number of threads to create */ |
|||
ulint wrk_cnt) /*!< in: Number of work items */ |
|||
{ |
|||
mem_heap_t* mtflush_heap; |
|||
mem_heap_t* mtflush_heap2; |
|||
|
|||
/* Create heap, work queue, write completion queue, read
|
|||
completion queue for multi-threaded flush, and init |
|||
handler. */ |
|||
mtflush_heap = mem_heap_create(0); |
|||
ut_a(mtflush_heap != NULL); |
|||
mtflush_heap2 = mem_heap_create(0); |
|||
ut_a(mtflush_heap2 != NULL); |
|||
|
|||
mutex_create(LATCH_ID_MTFLUSH_MUTEX, &mtflush_mtx); |
|||
|
|||
mtflush_ctx = new (mem_heap_zalloc(mtflush_heap, sizeof *mtflush_ctx)) |
|||
thread_sync_t(n_threads, mtflush_heap, mtflush_heap2); |
|||
|
|||
return((void *)mtflush_ctx); |
|||
} |
|||
|
|||
/******************************************************************//**
|
|||
Flush buffer pool instances. |
|||
@return number of pages flushed. */ |
|||
ulint |
|||
buf_mtflu_flush_work_items( |
|||
/*=======================*/ |
|||
ulint buf_pool_inst, /*!< in: Number of buffer pool instances */ |
|||
flush_counters_t *per_pool_cnt, /*!< out: Number of pages
|
|||
flushed or evicted /instance */ |
|||
buf_flush_t flush_type, /*!< in: Type of flush */ |
|||
ulint min_n, /*!< in: Wished minimum number of
|
|||
blocks to be flushed */ |
|||
lsn_t lsn_limit) /*!< in: All blocks whose
|
|||
oldest_modification is smaller than |
|||
this should be flushed (if their |
|||
number does not exceed min_n) */ |
|||
{ |
|||
ulint n_flushed=0, i; |
|||
mem_heap_t* work_heap; |
|||
mem_heap_t* reply_heap; |
|||
wrk_t work_item[MTFLUSH_MAX_WORKER]; |
|||
|
|||
if (mtflush_ctx->gwt_status == WTHR_KILL_IT) { |
|||
return 0; |
|||
} |
|||
|
|||
/* Allocate heap where all work items used and queue
|
|||
node items areallocated */ |
|||
work_heap = mem_heap_create(0); |
|||
reply_heap = mem_heap_create(0); |
|||
|
|||
|
|||
for(i=0;i<buf_pool_inst; i++) { |
|||
work_item[i].tsk = MT_WRK_WRITE; |
|||
work_item[i].wr.buf_pool = buf_pool_from_array(i); |
|||
work_item[i].wr.flush_type = flush_type; |
|||
work_item[i].wr.min = min_n; |
|||
work_item[i].wr.lsn_limit = lsn_limit; |
|||
work_item[i].wi_status = WRK_ITEM_UNSET; |
|||
work_item[i].wheap = work_heap; |
|||
work_item[i].rheap = reply_heap; |
|||
work_item[i].n_flushed = 0; |
|||
work_item[i].n_evicted = 0; |
|||
work_item[i].id_usr = 0; |
|||
|
|||
ib_wqueue_add(mtflush_ctx->wq, |
|||
(void *)(work_item + i), |
|||
work_heap); |
|||
} |
|||
|
|||
/* wait on the completion to arrive */ |
|||
for(i=0; i< buf_pool_inst;) { |
|||
wrk_t *done_wi = NULL; |
|||
done_wi = (wrk_t *)ib_wqueue_wait(mtflush_ctx->wr_cq); |
|||
|
|||
if (done_wi != NULL) { |
|||
per_pool_cnt[i].flushed = done_wi->n_flushed; |
|||
per_pool_cnt[i].evicted = done_wi->n_evicted; |
|||
|
|||
#ifdef UNIV_MTFLUSH_DEBUG
|
|||
if((int)done_wi->id_usr == 0 && |
|||
(done_wi->wi_status == WRK_ITEM_SET || |
|||
done_wi->wi_status == WRK_ITEM_UNSET)) { |
|||
fprintf(stderr, |
|||
"**Set/Unused work_item[%lu] flush_type=%d\n", |
|||
i, |
|||
done_wi->wr.flush_type); |
|||
ut_a(0); |
|||
} |
|||
#endif
|
|||
|
|||
n_flushed+= done_wi->n_flushed+done_wi->n_evicted; |
|||
i++; |
|||
} |
|||
} |
|||
|
|||
/* Release used work_items and queue nodes */ |
|||
mem_heap_free(work_heap); |
|||
mem_heap_free(reply_heap); |
|||
|
|||
return(n_flushed); |
|||
} |
|||
|
|||
/*******************************************************************//**
|
|||
Multi-threaded version of buf_flush_list |
|||
*/ |
|||
bool |
|||
buf_mtflu_flush_list( |
|||
/*=================*/ |
|||
ulint min_n, /*!< in: wished minimum mumber of blocks
|
|||
flushed (it is not guaranteed that the |
|||
actual number is that big, though) */ |
|||
lsn_t lsn_limit, /*!< in the case BUF_FLUSH_LIST all
|
|||
blocks whose oldest_modification is |
|||
smaller than this should be flushed |
|||
(if their number does not exceed |
|||
min_n), otherwise ignored */ |
|||
ulint* n_processed) /*!< out: the number of pages
|
|||
which were processed is passed |
|||
back to caller. Ignored if NULL */ |
|||
|
|||
{ |
|||
ulint i; |
|||
bool success = true; |
|||
flush_counters_t cnt[MTFLUSH_MAX_WORKER]; |
|||
|
|||
if (n_processed) { |
|||
*n_processed = 0; |
|||
} |
|||
|
|||
if (min_n != ULINT_MAX) { |
|||
/* Ensure that flushing is spread evenly amongst the
|
|||
buffer pool instances. When min_n is ULINT_MAX |
|||
we need to flush everything up to the lsn limit |
|||
so no limit here. */ |
|||
min_n = (min_n + srv_buf_pool_instances - 1) |
|||
/ srv_buf_pool_instances; |
|||
} |
|||
|
|||
/* This lock is to safequard against re-entry if any. */ |
|||
mutex_enter(&mtflush_mtx); |
|||
buf_mtflu_flush_work_items(srv_buf_pool_instances, |
|||
cnt, BUF_FLUSH_LIST, |
|||
min_n, lsn_limit); |
|||
mutex_exit(&mtflush_mtx); |
|||
|
|||
for (i = 0; i < srv_buf_pool_instances; i++) { |
|||
if (n_processed) { |
|||
*n_processed += cnt[i].flushed+cnt[i].evicted; |
|||
} |
|||
|
|||
if (cnt[i].flushed) { |
|||
MONITOR_INC_VALUE_CUMULATIVE( |
|||
MONITOR_FLUSH_BATCH_TOTAL_PAGE, |
|||
MONITOR_FLUSH_BATCH_COUNT, |
|||
MONITOR_FLUSH_BATCH_PAGES, |
|||
cnt[i].flushed); |
|||
} |
|||
|
|||
if(cnt[i].evicted) { |
|||
MONITOR_INC_VALUE_CUMULATIVE( |
|||
MONITOR_LRU_BATCH_EVICT_TOTAL_PAGE, |
|||
MONITOR_LRU_BATCH_EVICT_COUNT, |
|||
MONITOR_LRU_BATCH_EVICT_PAGES, |
|||
cnt[i].evicted); |
|||
} |
|||
} |
|||
#ifdef UNIV_MTFLUSH_DEBUG
|
|||
fprintf(stderr, "%s: [1] [*n_processed: (min:%lu)%lu ]\n", |
|||
__FUNCTION__, (min_n * srv_buf_pool_instances), *n_processed); |
|||
#endif
|
|||
return(success); |
|||
} |
|||
|
|||
/*********************************************************************//**
|
|||
Clears up tail of the LRU lists: |
|||
* Put replaceable pages at the tail of LRU to the free list |
|||
* Flush dirty pages at the tail of LRU to the disk |
|||
The depth to which we scan each buffer pool is controlled by dynamic |
|||
config parameter innodb_LRU_scan_depth. |
|||
@return total pages flushed */ |
|||
UNIV_INTERN |
|||
ulint |
|||
buf_mtflu_flush_LRU_tail(void) |
|||
/*==========================*/ |
|||
{ |
|||
ulint total_flushed=0, i; |
|||
flush_counters_t cnt[MTFLUSH_MAX_WORKER]; |
|||
|
|||
ut_a(buf_mtflu_init_done()); |
|||
|
|||
/* At shutdown do not send requests anymore */ |
|||
if (!mtflush_ctx || mtflush_ctx->gwt_status == WTHR_KILL_IT) { |
|||
return (total_flushed); |
|||
} |
|||
|
|||
/* This lock is to safeguard against re-entry if any */ |
|||
mutex_enter(&mtflush_mtx); |
|||
buf_mtflu_flush_work_items(srv_buf_pool_instances, |
|||
cnt, BUF_FLUSH_LRU, srv_LRU_scan_depth, 0); |
|||
mutex_exit(&mtflush_mtx); |
|||
|
|||
for (i = 0; i < srv_buf_pool_instances; i++) { |
|||
total_flushed += cnt[i].flushed+cnt[i].evicted; |
|||
|
|||
if (cnt[i].flushed) { |
|||
MONITOR_INC_VALUE_CUMULATIVE( |
|||
MONITOR_LRU_BATCH_FLUSH_TOTAL_PAGE, |
|||
MONITOR_LRU_BATCH_FLUSH_COUNT, |
|||
MONITOR_LRU_BATCH_FLUSH_PAGES, |
|||
cnt[i].flushed); |
|||
} |
|||
|
|||
if(cnt[i].evicted) { |
|||
MONITOR_INC_VALUE_CUMULATIVE( |
|||
MONITOR_LRU_BATCH_EVICT_TOTAL_PAGE, |
|||
MONITOR_LRU_BATCH_EVICT_COUNT, |
|||
MONITOR_LRU_BATCH_EVICT_PAGES, |
|||
cnt[i].evicted); |
|||
} |
|||
} |
|||
|
|||
#if UNIV_MTFLUSH_DEBUG
|
|||
fprintf(stderr, "[1] [*n_processed: (min:%lu)%lu ]\n", ( |
|||
srv_LRU_scan_depth * srv_buf_pool_instances), total_flushed); |
|||
#endif
|
|||
|
|||
return(total_flushed); |
|||
} |
|||
|
|||
/*********************************************************************//**
|
|||
Set correct thread identifiers to io thread array based on |
|||
information we have. */ |
|||
void |
|||
buf_mtflu_set_thread_ids( |
|||
/*=====================*/ |
|||
ulint n_threads, /*!<in: Number of threads to fill */ |
|||
void* ctx, /*!<in: thread context */ |
|||
os_thread_id_t* thread_ids) /*!<in: thread id array */ |
|||
{ |
|||
thread_sync_t *mtflush_io = ((thread_sync_t *)ctx); |
|||
ulint i; |
|||
ut_a(mtflush_io != NULL); |
|||
ut_a(thread_ids != NULL); |
|||
|
|||
for(i = 0; i < n_threads; i++) { |
|||
thread_ids[i] = mtflush_io->thread_data[i].wthread_id; |
|||
} |
|||
} |
|||
@ -1,95 +0,0 @@ |
|||
/***************************************************************************** |
|||
|
|||
Copyright (C) 2014 SkySQL Ab. All Rights Reserved. |
|||
Copyright (C) 2014 Fusion-io. All Rights Reserved. |
|||
|
|||
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 St, Fifth Floor, Boston, MA 02110-1301 USA |
|||
|
|||
*****************************************************************************/ |
|||
|
|||
/******************************************************************//** |
|||
@file include/buf0mtflu.h |
|||
Multi-threadef flush method interface function prototypes |
|||
|
|||
Created 06/02/2014 Jan Lindström jan.lindstrom@skysql.com |
|||
Dhananjoy Das DDas@fusionio.com |
|||
***********************************************************************/ |
|||
|
|||
#ifndef buf0mtflu_h |
|||
#define buf0mtflu_h |
|||
|
|||
/******************************************************************//** |
|||
Add exit work item to work queue to signal multi-threded flush |
|||
threads that they should exit. |
|||
*/ |
|||
void |
|||
buf_mtflu_io_thread_exit(void); |
|||
/*===========================*/ |
|||
|
|||
/******************************************************************//** |
|||
Initialize multi-threaded flush thread syncronization data. |
|||
@return Initialized multi-threaded flush thread syncroniztion data. */ |
|||
void* |
|||
buf_mtflu_handler_init( |
|||
/*===================*/ |
|||
ulint n_threads, /*!< in: Number of threads to create */ |
|||
ulint wrk_cnt); /*!< in: Number of work items */ |
|||
|
|||
/******************************************************************//** |
|||
Return true if multi-threaded flush is initialized |
|||
@return true if initialized, false if not */ |
|||
bool |
|||
buf_mtflu_init_done(void); |
|||
/*======================*/ |
|||
|
|||
/*********************************************************************//** |
|||
Clears up tail of the LRU lists: |
|||
* Put replaceable pages at the tail of LRU to the free list |
|||
* Flush dirty pages at the tail of LRU to the disk |
|||
The depth to which we scan each buffer pool is controlled by dynamic |
|||
config parameter innodb_LRU_scan_depth. |
|||
@return total pages flushed */ |
|||
UNIV_INTERN |
|||
ulint |
|||
buf_mtflu_flush_LRU_tail(void); |
|||
/*===========================*/ |
|||
|
|||
/*******************************************************************//** |
|||
Multi-threaded version of buf_flush_list |
|||
*/ |
|||
bool |
|||
buf_mtflu_flush_list( |
|||
/*=================*/ |
|||
ulint min_n, /*!< in: wished minimum mumber of blocks |
|||
flushed (it is not guaranteed that the |
|||
actual number is that big, though) */ |
|||
lsn_t lsn_limit, /*!< in the case BUF_FLUSH_LIST all |
|||
blocks whose oldest_modification is |
|||
smaller than this should be flushed |
|||
(if their number does not exceed |
|||
min_n), otherwise ignored */ |
|||
ulint* n_processed); /*!< out: the number of pages |
|||
which were processed is passed |
|||
back to caller. Ignored if NULL */ |
|||
|
|||
/*********************************************************************//** |
|||
Set correct thread identifiers to io thread array based on |
|||
information we have. */ |
|||
void |
|||
buf_mtflu_set_thread_ids( |
|||
/*=====================*/ |
|||
ulint n_threads, /*!<in: Number of threads to fill */ |
|||
void* ctx, /*!<in: thread context */ |
|||
os_thread_id_t* thread_ids); /*!<in: thread id array */ |
|||
|
|||
#endif |
|||
Write
Preview
Loading…
Cancel
Save
Reference in new issue