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背景：

MySQL 5.5開始新增一個數據庫：PERFORMANCE_SCHEMA，主要用于收集數據庫服務器性能參數。并且?guī)炖锉淼拇鎯σ婢鶠镻ERFORMANCE_SCHEMA，而用戶是不能創(chuàng)建存儲引擎為PERFORMANCE_SCHEMA的表。MySQL5.5默認是關閉的，需要手動開啟，在配置文件里添加：

[mysqld]performance_schema=ON

查看是否開啟：

mysql>show variables like 'performance_schema';+--------------------+-------+| Variable_name      | Value |+--------------------+-------+| performance_schema | ON    |+--------------------+-------+

從MySQL5.6開始，默認打開，本文就從MySQL5.6來說明，在數據庫使用當中PERFORMANCE_SCHEMA的一些比較常用的功能。具體的信息可以查看官方文檔。

相關表信息：

一：配置（setup）表：

zjy@performance_schema 10:16:56>show tables like '%setup%';+----------------------------------------+| Tables_in_performance_schema (%setup%) |+----------------------------------------+| setup_actors                           || setup_consumers                        || setup_instruments                      || setup_objects                          || setup_timers                           |+----------------------------------------+

1，setup_actors：配置用戶緯度的監(jiān)控，默認監(jiān)控所有用戶。

zjy@performance_schema 10:19:11>select * from setup_actors;+------+------+------+| HOST | USER | ROLE |+------+------+------+| %    | %    | %    |+------+------+------+

2，setup_consumers：配置events的消費者類型，即收集的events寫入到哪些統(tǒng)計表中。

zjy@: performance_schema 10:23:35>select * from setup_consumers;+--------------------------------+---------+| NAME                           | ENABLED |+--------------------------------+---------+| events_stages_current          | NO      || events_stages_history          | NO      || events_stages_history_long     | NO      || events_statements_current      | YES     || events_statements_history      | NO      || events_statements_history_long | NO      || events_waits_current           | NO      || events_waits_history           | NO      || events_waits_history_long      | NO      || global_instrumentation         | YES     || thread_instrumentation         | YES     || statements_digest              | YES     |+--------------------------------+---------+

這里需要說明的是需要查看哪個就更新其ENABLED列為YES。如：

zjy@performance_schema 10:25:02>update setup_consumers set ENABLED='YES' where NAME in ('events_stages_current','events_waits_current');Query OK, 2 rows affected (0.00 sec)

更新完后立即生效，但是服務器重啟之后又會變回默認值，要永久生效需要在配置文件里添加：

[mysqld]#performance_schemaperformance_schema_consumer_events_waits_current=onperformance_schema_consumer_events_stages_current=onperformance_schema_consumer_events_statements_current=onperformance_schema_consumer_events_waits_history=onperformance_schema_consumer_events_stages_history=onperformance_schema_consumer_events_statements_history=on

即在這些表的前面加上：performance_schema_consumer_xxx。表setup_consumers里面的值有個層級關系：

global_instrumentation > thread_instrumentation = statements_digest > events_stages_current = events_statements_current = events_waits_current > events_stages_history = events_statements_history = events_waits_history > events_stages_history_long = events_statements_history_long = events_waits_history_long

只有上一層次的為YES，才會繼續(xù)檢查該本層為YES or NO。global_instrumentation是最高級別consumer，如果它設置為NO，則所有的consumer都會忽略。其中history和history_long存的是current表的歷史記錄條數，history表記錄了每個線程最近等待的10個事件，而history_long表則記錄了最近所有線程產生的10000個事件，這里的10和10000都是可以配置的。這三個表表結構相同，history和history_long表數據都來源于current表。長度通過控制參數：

zjy@performance_schema 11:10:03>show variables like 'performance_schema%history%size';+--------------------------------------------------------+-------+| Variable_name                                          | Value |+--------------------------------------------------------+-------+| performance_schema_events_stages_history_long_size     | 10000 || performance_schema_events_stages_history_size          | 10    || performance_schema_events_statements_history_long_size | 10000 || performance_schema_events_statements_history_size      | 10    || performance_schema_events_waits_history_long_size      | 10000 || performance_schema_events_waits_history_size           | 10    |+--------------------------------------------------------+-------+

3，setup_instruments：配置具體的instrument，主要包含4大類：idle、stage/xxx、statement/xxx、wait/xxx：

zjy@performance_schema 10:56:35>select name,count(*) from setup_instruments group by LEFT(name,5);+---------------------------------+----------+| name                            | count(*) |+---------------------------------+----------+| idle                            |        1 || stage/sql/After create          |      111 || statement/sql/select            |      179 || wait/synch/mutex/sql/PAGE::lock |      296 |+---------------------------------+----------+

idle表示socket空閑的時間，stage類表示語句的每個執(zhí)行階段的統(tǒng)計，statement類統(tǒng)計語句維度的信息，wait類統(tǒng)計各種等待事件，比如IO，mutux，spin_lock,condition等。

4，setup_objects：配置監(jiān)控對象，默認對mysql，performance_schema和information_schema中的表都不監(jiān)控，而其它DB的所有表都監(jiān)控。

zjy@performance_schema 11:00:18>select * from setup_objects;+-------------+--------------------+-------------+---------+-------+| OBJECT_TYPE | OBJECT_SCHEMA      | OBJECT_NAME | ENABLED | TIMED |+-------------+--------------------+-------------+---------+-------+| TABLE       | mysql              | %           | NO      | NO    || TABLE       | performance_schema | %           | NO      | NO    || TABLE       | information_schema | %           | NO      | NO    || TABLE       | %                  | %           | YES     | YES   |+-------------+--------------------+-------------+---------+-------+

5，setup_timers：配置每種類型指令的統(tǒng)計時間單位。MICROSECOND表示統(tǒng)計單位是微妙，CYCLE表示統(tǒng)計單位是時鐘周期，時間度量與CPU的主頻有關，NANOSECOND表示統(tǒng)計單位是納秒。但無論采用哪種度量單位，最終統(tǒng)計表中統(tǒng)計的時間都會裝換到皮秒。（1秒＝1000000000000皮秒）

zjy@performance_schema 11:05:12>select * from setup_timers;+-----------+-------------+| NAME      | TIMER_NAME  |+-----------+-------------+| idle      | MICROSECOND || wait      | CYCLE       || stage     | NANOSECOND  || statement | NANOSECOND  |+-----------+-------------+

二：instance表

1，cond_instances：條件等待對象實例

表中記錄了系統(tǒng)中使用的條件變量的對象，OBJECT_INSTANCE_BEGIN為對象的內存地址。

2，file_instances：文件實例

表中記錄了系統(tǒng)中打開了文件的對象，包括ibdata文件，redo文件，binlog文件，用戶的表文件等，open_count顯示當前文件打開的數目，如果重來沒有打開過，不會出現在表中。

zjy@performance_schema 11:20:04>select * from file_instances limit 2,5;+---------------------------------+--------------------------------------+------------+| FILE_NAME                       | EVENT_NAME                           | OPEN_COUNT |+---------------------------------+--------------------------------------+------------+| /var/lib/mysql/mysql/plugin.frm | wait/io/file/sql/FRM                 |          0 || /var/lib/mysql/mysql/plugin.MYI | wait/io/file/myisam/kfile            |          1 || /var/lib/mysql/mysql/plugin.MYD | wait/io/file/myisam/dfile            |          1 || /var/lib/mysql/ibdata1          | wait/io/file/innodb/innodb_data_file |          2 || /var/lib/mysql/ib_logfile0      | wait/io/file/innodb/innodb_log_file  |          2 |+---------------------------------+--------------------------------------+------------+

3，mutex_instances：互斥同步對象實例

表中記錄了系統(tǒng)中使用互斥量對象的所有記錄，其中name為：wait/synch/mutex/*。LOCKED_BY_THREAD_ID顯示哪個線程正持有mutex，若沒有線程持有，則為NULL。

4，rwlock_instances： 讀寫鎖同步對象實例

表中記錄了系統(tǒng)中使用讀寫鎖對象的所有記錄，其中name為 wait/synch/rwlock/*。WRITE_LOCKED_BY_THREAD_ID為正在持有該對象的thread_id，若沒有線程持有，則為NULL。READ_LOCKED_BY_COUNT為記錄了同時有多少個讀者持有讀鎖。（通過 events_waits_current 表可以知道，哪個線程在等待鎖；通過rwlock_instances知道哪個線程持有鎖。rwlock_instances的缺陷是，只能記錄持有寫鎖的線程，對于讀鎖則無能為力）。

5，socket_instances：活躍會話對象實例
表中記錄了thread_id,socket_id,ip和port，其它表可以通過thread_id與socket_instance進行關聯(lián)，獲取IP-PORT信息，能夠與應用對接起來。
event_name主要包含3類：
wait/io/socket/sql/server_unix_socket，服務端unix監(jiān)聽socket
wait/io/socket/sql/server_tcpip_socket，服務端tcp監(jiān)聽socket
wait/io/socket/sql/client_connection，客戶端socket

三：Wait表

1，events_waits_current：記錄了當前線程等待的事件

2，events_waits_history：記錄了每個線程最近等待的10個事件

3，events_waits_history_long：記錄了最近所有線程產生的10000個事件

表結構定義如下：

CREATE TABLE `events_waits_current` (  `THREAD_ID` bigint(20) unsigned NOT NULL COMMENT '線程ID',  `EVENT_ID` bigint(20) unsigned NOT NULL COMMENT '當前線程的事件ID，和THREAD_ID確定唯一',  `END_EVENT_ID` bigint(20) unsigned DEFAULT NULL COMMENT '當事件開始時，這一列被設置為NULL。當事件結束時，再更新為當前的事件ID',  `EVENT_NAME` varchar(128) NOT NULL COMMENT '事件名稱',  `SOURCE` varchar(64) DEFAULT NULL COMMENT '該事件產生時的源碼文件',  `TIMER_START` bigint(20) unsigned DEFAULT NULL COMMENT '事件開始時間（皮秒）',  `TIMER_END` bigint(20) unsigned DEFAULT NULL COMMENT '事件結束結束時間（皮秒）',  `TIMER_WAIT` bigint(20) unsigned DEFAULT NULL COMMENT '事件等待時間（皮秒）',  `SPINS` int(10) unsigned DEFAULT NULL COMMENT '',  `OBJECT_SCHEMA` varchar(64) DEFAULT NULL COMMENT '庫名',  `OBJECT_NAME` varchar(512) DEFAULT NULL COMMENT '文件名、表名、IP:SOCK值',  `OBJECT_TYPE` varchar(64) DEFAULT NULL COMMENT 'FILE、TABLE、TEMPORARY TABLE',  `INDEX_NAME` varchar(64) DEFAULT NULL COMMENT '索引名',  `OBJECT_INSTANCE_BEGIN` bigint(20) unsigned NOT NULL COMMENT '內存地址',  `NESTING_EVENT_ID` bigint(20) unsigned DEFAULT NULL COMMENT '該事件對應的父事件ID',  `NESTING_EVENT_TYPE` enum('STATEMENT','STAGE','WAIT') DEFAULT NULL COMMENT '父事件類型(STATEMENT, STAGE, WAIT)',  `OPERATION` varchar(32) NOT NULL COMMENT '操作類型（lock, read, write）',  `NUMBER_OF_BYTES` bigint(20) DEFAULT NULL COMMENT '',  `FLAGS` int(10) unsigned DEFAULT NULL COMMENT '標記') ENGINE=PERFORMANCE_SCHEMA DEFAULT CHARSET=utf8

四：Stage 表

1，events_stages_current：記錄了當前線程所處的執(zhí)行階段

2，events_stages_history：記錄了當前線程所處的執(zhí)行階段10條歷史記錄

3，events_stages_history_long：記錄了當前線程所處的執(zhí)行階段10000條歷史記錄

表結構定義如下：

CREATE TABLE `events_stages_current` (  `THREAD_ID` bigint(20) unsigned NOT NULL COMMENT '線程ID',  `EVENT_ID` bigint(20) unsigned NOT NULL COMMENT '事件ID',  `END_EVENT_ID` bigint(20) unsigned DEFAULT NULL COMMENT '結束事件ID',  `EVENT_NAME` varchar(128) NOT NULL COMMENT '事件名稱',  `SOURCE` varchar(64) DEFAULT NULL COMMENT '源碼位置',  `TIMER_START` bigint(20) unsigned DEFAULT NULL COMMENT '事件開始時間（皮秒）',  `TIMER_END` bigint(20) unsigned DEFAULT NULL COMMENT '事件結束結束時間（皮秒）',  `TIMER_WAIT` bigint(20) unsigned DEFAULT NULL COMMENT '事件等待時間（皮秒）',  `NESTING_EVENT_ID` bigint(20) unsigned DEFAULT NULL COMMENT '該事件對應的父事件ID',  `NESTING_EVENT_TYPE` enum('STATEMENT','STAGE','WAIT') DEFAULT NULL COMMENT '父事件類型(STATEMENT, STAGE, WAIT)') ENGINE=PERFORMANCE_SCHEMA DEFAULT CHARSET=utf8

五：Statement 表

1，events_statements_current：通過 thread_id+event_id可以唯一確定一條記錄。Statments表只記錄最頂層的請求，SQL語句或是COMMAND，每條語句一行。event_name形式為statement/sql/*，或statement/com/*

2，events_statements_history

3，events_statements_history_long

表結構定義如下：

CREATE TABLE `events_statements_current` (  `THREAD_ID` bigint(20) unsigned NOT NULL COMMENT '線程ID',  `EVENT_ID` bigint(20) unsigned NOT NULL COMMENT '事件ID',  `END_EVENT_ID` bigint(20) unsigned DEFAULT NULL COMMENT '結束事件ID',  `EVENT_NAME` varchar(128) NOT NULL COMMENT '事件名稱',  `SOURCE` varchar(64) DEFAULT NULL COMMENT '源碼位置',  `TIMER_START` bigint(20) unsigned DEFAULT NULL COMMENT '事件開始時間（皮秒）',  `TIMER_END` bigint(20) unsigned DEFAULT NULL COMMENT '事件結束結束時間（皮秒）',  `TIMER_WAIT` bigint(20) unsigned DEFAULT NULL COMMENT '事件等待時間（皮秒）',  `LOCK_TIME` bigint(20) unsigned NOT NULL COMMENT '鎖時間',  `SQL_TEXT` longtext COMMENT '記錄SQL語句',  `DIGEST` varchar(32) DEFAULT NULL COMMENT '對SQL_TEXT做MD5產生的32位字符串',  `DIGEST_TEXT` longtext COMMENT '將語句中值部分用問號代替，用于SQL語句歸類',  `CURRENT_SCHEMA` varchar(64) DEFAULT NULL COMMENT '默認的數據庫名',  `OBJECT_TYPE` varchar(64) DEFAULT NULL COMMENT '保留字段',  `OBJECT_SCHEMA` varchar(64) DEFAULT NULL COMMENT '保留字段',  `OBJECT_NAME` varchar(64) DEFAULT NULL COMMENT '保留字段',  `OBJECT_INSTANCE_BEGIN` bigint(20) unsigned DEFAULT NULL COMMENT '內存地址',  `MYSQL_ERRNO` int(11) DEFAULT NULL COMMENT '',  `RETURNED_SQLSTATE` varchar(5) DEFAULT NULL COMMENT '',  `MESSAGE_TEXT` varchar(128) DEFAULT NULL COMMENT '信息',  `ERRORS` bigint(20) unsigned NOT NULL COMMENT '錯誤數目',  `WARNINGS` bigint(20) unsigned NOT NULL COMMENT '警告數目',  `ROWS_AFFECTED` bigint(20) unsigned NOT NULL COMMENT '影響的數目',  `ROWS_SENT` bigint(20) unsigned NOT NULL COMMENT '返回的記錄數',  `ROWS_EXAMINED` bigint(20) unsigned NOT NULL COMMENT '讀取掃描的記錄數目',  `CREATED_TMP_DISK_TABLES` bigint(20) unsigned NOT NULL COMMENT '創(chuàng)建磁盤臨時表數目',  `CREATED_TMP_TABLES` bigint(20) unsigned NOT NULL COMMENT '創(chuàng)建臨時表數目',  `SELECT_FULL_JOIN` bigint(20) unsigned NOT NULL COMMENT 'join時，第一個表為全表掃描的數目',  `SELECT_FULL_RANGE_JOIN` bigint(20) unsigned NOT NULL COMMENT '引用表采用range方式掃描的數目',  `SELECT_RANGE` bigint(20) unsigned NOT NULL COMMENT 'join時，第一個表采用range方式掃描的數目',  `SELECT_RANGE_CHECK` bigint(20) unsigned NOT NULL COMMENT '',  `SELECT_SCAN` bigint(20) unsigned NOT NULL COMMENT 'join時，第一個表位全表掃描的數目',  `SORT_MERGE_PASSES` bigint(20) unsigned NOT NULL COMMENT '',  `SORT_RANGE` bigint(20) unsigned NOT NULL COMMENT '范圍排序數目',  `SORT_ROWS` bigint(20) unsigned NOT NULL COMMENT '排序的記錄數目',  `SORT_SCAN` bigint(20) unsigned NOT NULL COMMENT '全表排序數目',  `NO_INDEX_USED` bigint(20) unsigned NOT NULL COMMENT '沒有使用索引數目',  `NO_GOOD_INDEX_USED` bigint(20) unsigned NOT NULL COMMENT '',  `NESTING_EVENT_ID` bigint(20) unsigned DEFAULT NULL COMMENT '該事件對應的父事件ID',  `NESTING_EVENT_TYPE` enum('STATEMENT','STAGE','WAIT') DEFAULT NULL COMMENT '父事件類型(STATEMENT, STAGE, WAIT)') ENGINE=PERFORMANCE_SCHEMA DEFAULT CHARSET=utf8

六：Connection 表

1，users：記錄用戶連接數信息

2，hosts：記錄了主機連接數信息

3，accounts：記錄了用戶主機連接數信息

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七：Summary 表： Summary表聚集了各個維度的統(tǒng)計信息包括表維度，索引維度，會話維度，語句維度和鎖維度的統(tǒng)計信息

1，events_waits_summary_global_by_event_name：按等待事件類型聚合，每個事件一條記錄

CREATE TABLE `events_waits_summary_global_by_event_name` (  `EVENT_NAME` varchar(128) NOT NULL COMMENT '事件名稱',  `COUNT_STAR` bigint(20) unsigned NOT NULL COMMENT '事件計數',  `SUM_TIMER_WAIT` bigint(20) unsigned NOT NULL COMMENT '總的等待時間',  `MIN_TIMER_WAIT` bigint(20) unsigned NOT NULL COMMENT '最小等待時間',  `AVG_TIMER_WAIT` bigint(20) unsigned NOT NULL COMMENT '平均等待時間',  `MAX_TIMER_WAIT` bigint(20) unsigned NOT NULL COMMENT '最大等待時間') ENGINE=PERFORMANCE_SCHEMA DEFAULT CHARSET=utf8

2，events_waits_summary_by_instance：按等待事件對象聚合，同一種等待事件，可能有多個實例，每個實例有不同的內存地址，因此
event_name+object_instance_begin唯一確定一條記錄。

CREATE TABLE `events_waits_summary_by_instance` (  `EVENT_NAME` varchar(128) NOT NULL COMMENT '事件名稱',  `OBJECT_INSTANCE_BEGIN` bigint(20) unsigned NOT NULL COMMENT '內存地址',  `COUNT_STAR` bigint(20) unsigned NOT NULL COMMENT '事件計數',  `SUM_TIMER_WAIT` bigint(20) unsigned NOT NULL COMMENT '總的等待時間',  `MIN_TIMER_WAIT` bigint(20) unsigned NOT NULL COMMENT '最小等待時間',  `AVG_TIMER_WAIT` bigint(20) unsigned NOT NULL COMMENT '平均等待時間',  `MAX_TIMER_WAIT` bigint(20) unsigned NOT NULL COMMENT '最大等待時間') ENGINE=PERFORMANCE_SCHEMA DEFAULT CHARSET=utf8

3，events_waits_summary_by_thread_by_event_name：按每個線程和事件來統(tǒng)計，thread_id+event_name唯一確定一條記錄。

CREATE TABLE `events_waits_summary_by_thread_by_event_name` (  `THREAD_ID` bigint(20) unsigned NOT NULL COMMENT '線程ID',  `EVENT_NAME` varchar(128) NOT NULL COMMENT '事件名稱',  `COUNT_STAR` bigint(20) unsigned NOT NULL COMMENT '事件計數',  `SUM_TIMER_WAIT` bigint(20) unsigned NOT NULL COMMENT '總的等待時間',  `MIN_TIMER_WAIT` bigint(20) unsigned NOT NULL COMMENT '最小等待時間',  `AVG_TIMER_WAIT` bigint(20) unsigned NOT NULL COMMENT '平均等待時間',  `MAX_TIMER_WAIT` bigint(20) unsigned NOT NULL COMMENT '最大等待時間') ENGINE=PERFORMANCE_SCHEMA DEFAULT CHARSET=utf8

4，events_stages_summary_global_by_event_name：按事件階段類型聚合，每個事件一條記錄，表結構同上。

5，events_stages_summary_by_thread_by_event_name：按每個線程和事件來階段統(tǒng)計，表結構同上。

6，events_statements_summary_by_digest：按照事件的語句進行聚合。

CREATE TABLE `events_statements_summary_by_digest` (  `SCHEMA_NAME` varchar(64) DEFAULT NULL COMMENT '庫名',  `DIGEST` varchar(32) DEFAULT NULL COMMENT '對SQL_TEXT做MD5產生的32位字符串。如果為consumer表中沒有打開statement_digest選項，則為NULL',  `DIGEST_TEXT` longtext COMMENT '將語句中值部分用問號代替，用于SQL語句歸類。如果為consumer表中沒有打開statement_digest選項，則為NULL。',  `COUNT_STAR` bigint(20) unsigned NOT NULL COMMENT '事件計數',  `SUM_TIMER_WAIT` bigint(20) unsigned NOT NULL COMMENT '總的等待時間',  `MIN_TIMER_WAIT` bigint(20) unsigned NOT NULL COMMENT '最小等待時間',  `AVG_TIMER_WAIT` bigint(20) unsigned NOT NULL COMMENT '平均等待時間',  `MAX_TIMER_WAIT` bigint(20) unsigned NOT NULL COMMENT '最大等待時間',  `SUM_LOCK_TIME` bigint(20) unsigned NOT NULL COMMENT '鎖時間總時長',  `SUM_ERRORS` bigint(20) unsigned NOT NULL COMMENT '錯誤數的總',  `SUM_WARNINGS` bigint(20) unsigned NOT NULL COMMENT '警告的總數',  `SUM_ROWS_AFFECTED` bigint(20) unsigned NOT NULL COMMENT '影響的總數目',  `SUM_ROWS_SENT` bigint(20) unsigned NOT NULL COMMENT '返回總數目',  `SUM_ROWS_EXAMINED` bigint(20) unsigned NOT NULL COMMENT '總的掃描的數目',  `SUM_CREATED_TMP_DISK_TABLES` bigint(20) unsigned NOT NULL COMMENT '創(chuàng)建磁盤臨時表的總數目',  `SUM_CREATED_TMP_TABLES` bigint(20) unsigned NOT NULL COMMENT '創(chuàng)建臨時表的總數目',  `SUM_SELECT_FULL_JOIN` bigint(20) unsigned NOT NULL COMMENT '第一個表全表掃描的總數目',  `SUM_SELECT_FULL_RANGE_JOIN` bigint(20) unsigned NOT NULL COMMENT '總的采用range方式掃描的數目',  `SUM_SELECT_RANGE` bigint(20) unsigned NOT NULL COMMENT '第一個表采用range方式掃描的總數目',  `SUM_SELECT_RANGE_CHECK` bigint(20) unsigned NOT NULL COMMENT '',  `SUM_SELECT_SCAN` bigint(20) unsigned NOT NULL COMMENT '第一個表位全表掃描的總數目',  `SUM_SORT_MERGE_PASSES` bigint(20) unsigned NOT NULL COMMENT '',  `SUM_SORT_RANGE` bigint(20) unsigned NOT NULL COMMENT '范圍排序總數',  `SUM_SORT_ROWS` bigint(20) unsigned NOT NULL COMMENT '排序的記錄總數目',  `SUM_SORT_SCAN` bigint(20) unsigned NOT NULL COMMENT '第一個表排序掃描總數目',  `SUM_NO_INDEX_USED` bigint(20) unsigned NOT NULL COMMENT '沒有使用索引總數',  `SUM_NO_GOOD_INDEX_USED` bigint(20) unsigned NOT NULL COMMENT '',  `FIRST_SEEN` timestamp NOT NULL DEFAULT '0000-00-00 00:00:00' COMMENT '第一次執(zhí)行時間',  `LAST_SEEN` timestamp NOT NULL DEFAULT '0000-00-00 00:00:00' COMMENT '最后一次執(zhí)行時間') ENGINE=PERFORMANCE_SCHEMA DEFAULT CHARSET=utf8

7，events_statements_summary_global_by_event_name：按照事件的語句進行聚合。表結構同上。

8，events_statements_summary_by_thread_by_event_name：按照線程和事件的語句進行聚合，表結構同上。

9，file_summary_by_instance：按事件類型統(tǒng)計（物理IO維度）

10，file_summary_by_event_name：具體文件統(tǒng)計（物理IO維度）

9和10一起說明：

統(tǒng)計IO操作：COUNT_STAR，SUM_TIMER_WAIT,MIN_TIMER_WAIT,AVG_TIMER_WAIT,MAX_TIMER_WAIT

統(tǒng)計讀：COUNT_READ,SUM_TIMER_READ,MIN_TIMER_READ,AVG_TIMER_READ,MAX_TIMER_READ, SUM_NUMBER_OF_BYTES_READ

統(tǒng)計寫：COUNT_WRITE,SUM_TIMER_WRITE,MIN_TIMER_WRITE,AVG_TIMER_WRITE,MAX_TIMER_WRITE, SUM_NUMBER_OF_BYTES_WRITE

統(tǒng)計其他IO事件，比如create，delete，open，close等：COUNT_MISC,SUM_TIMER_MISC,MIN_TIMER_MISC,AVG_TIMER_MISC,MAX_TIMER_MISC

11，table_io_waits_summary_by_table：根據wait/io/table/sql/handler，聚合每個表的I/O操作（邏輯IO緯度）

統(tǒng)計IO操作：COUNT_STAR,SUM_TIMER_WAIT,MIN_TIMER_WAIT,AVG_TIMER_WAIT,MAX_TIMER_WAIT

統(tǒng)計讀：COUNT_READ,SUM_TIMER_READ,MIN_TIMER_READ,AVG_TIMER_READ,MAX_TIMER_READ

：COUNT_FETCH,SUM_TIMER_FETCH,MIN_TIMER_FETCH,AVG_TIMER_FETCH, MAX_TIMER_FETCH

統(tǒng)計寫：COUNT_WRITE,SUM_TIMER_WRITE,MIN_TIMER_WRITE,AVG_TIMER_WRITE,MAX_TIMER_WRITE

INSERT統(tǒng)計，相應的還有DELETE和UPDATE統(tǒng)計：COUNT_INSERT,SUM_TIMER_INSERT,MIN_TIMER_INSERT,AVG_TIMER_INSERT,MAX_TIMER_INSERT

12，table_io_waits_summary_by_index_usage：與table_io_waits_summary_by_table類似，按索引維度統(tǒng)計

13，table_lock_waits_summary_by_table：聚合了表鎖等待事件，包括internal lock 和 external lock

internal lock通過SQL層函數thr_lock調用，OPERATION值為：
read normal、read with shared locks、read high priority、read no insert、write allow write、write concurrent insert、write delayed、write low priority、write normal
external lock則通過接口函數handler::external_lock調用存儲引擎層，OPERATION列的值為：read external、write external

14，Connection Summaries表：account、user、host

events_waits_summary_by_account_by_event_name
events_waits_summary_by_user_by_event_name
events_waits_summary_by_host_by_event_name
events_stages_summary_by_account_by_event_name
events_stages_summary_by_user_by_event_name
events_stages_summary_by_host_by_event_name
events_statements_summary_by_account_by_event_name
events_statements_summary_by_user_by_event_name
events_statements_summary_by_host_by_event_name

15，socket_summary_by_instance、socket_summary_by_event_name：socket聚合統(tǒng)計表。

八：其他相關表

1，performance_timers：系統(tǒng)支持的統(tǒng)計時間單位

2，threads：監(jiān)視服務端的當前運行的線程

統(tǒng)計應用：

關于SQL維度的統(tǒng)計信息主要集中在events_statements_summary_by_digest表中，通過將SQL語句抽象出digest，可以統(tǒng)計某類SQL語句在各個維度的統(tǒng)計信息

1，哪個SQL執(zhí)行最多：

zjy@performance_schema 11:36:22>SELECT SCHEMA_NAME,DIGEST_TEXT,COUNT_STAR,SUM_ROWS_SENT,SUM_ROWS_EXAMINED,FIRST_SEEN,LAST_SEEN FROM events_statements_summary_by_digest ORDER BY COUNT_STAR desc LIMIT 1\G*************************** 1. row ***************************      SCHEMA_NAME: dchat      DIGEST_TEXT: SELECT ...       COUNT_STAR: 1161210102    SUM_ROWS_SENT: 1161207842SUM_ROWS_EXAMINED: 0       FIRST_SEEN: 2016-02-17 00:36:46        LAST_SEEN: 2016-03-07 11:36:29

各個字段的注釋可以看上面的表結構說明：從2月17號到3月7號該SQL執(zhí)行了1161210102次。

2，哪個SQL平均響應時間最多：

zjy@performance_schema 11:36:28>SELECT SCHEMA_NAME,DIGEST_TEXT,COUNT_STAR,AVG_TIMER_WAIT,SUM_ROWS_SENT,SUM_ROWS_EXAMINED,FIRST_SEEN,LAST_SEEN FROM events_statements_summary_by_digest ORDER BY AVG_TIMER_WAIT desc LIMIT 1\G*************************** 1. row ***************************      SCHEMA_NAME: dchat      DIGEST_TEXT: SELECT ...       COUNT_STAR: 1   AVG_TIMER_WAIT: 273238183964000    SUM_ROWS_SENT: 50208SUM_ROWS_EXAMINED: 5565651       FIRST_SEEN: 2016-02-22 13:27:33        LAST_SEEN: 2016-02-22 13:27:33

各個字段的注釋可以看上面的表結構說明：從2月17號到3月7號該SQL平均響應時間273238183964000皮秒（1000000000000皮秒=1秒）

3，哪個SQL掃描的行數最多：

SUM_ROWS_EXAMINED

4，哪個SQL使用的臨時表最多：

SUM_CREATED_TMP_DISK_TABLES、SUM_CREATED_TMP_TABLES

5，哪個SQL返回的結果集最多：

SUM_ROWS_SENT

6，哪個SQL排序數最多：

SUM_SORT_ROWS

通過上述指標我們可以間接獲得某類SQL的邏輯IO(SUM_ROWS_EXAMINED)，CPU消耗(SUM_SORT_ROWS)，網絡帶寬(SUM_ROWS_SENT)的對比。

通過file_summary_by_instance表，可以獲得系統(tǒng)運行到現在，哪個文件(表)物理IO最多，這可能意味著這個表經常需要訪問磁盤IO。

7，哪個表、文件邏輯IO最多（熱數據）：

zjy@performance_schema 12:16:18>SELECT FILE_NAME,EVENT_NAME,COUNT_READ,SUM_NUMBER_OF_BYTES_READ,COUNT_WRITE,SUM_NUMBER_OF_BYTES_WRITE FROM file_summary_by_instance ORDER BY SUM_NUMBER_OF_BYTES_READ+SUM_NUMBER_OF_BYTES_WRITE DESC LIMIT 2\G*************************** 1. row ***************************                FILE_NAME: /var/lib/mysql/ibdata1  #文件               EVENT_NAME: wait/io/file/innodb/innodb_data_file               COUNT_READ: 544 SUM_NUMBER_OF_BYTES_READ: 10977280              COUNT_WRITE: 3700729SUM_NUMBER_OF_BYTES_WRITE: 1433734217728*************************** 2. row ***************************                FILE_NAME: /var/lib/mysql/dchat/fans.ibd   #表               EVENT_NAME: wait/io/file/innodb/innodb_data_file               COUNT_READ: 9370680 SUM_NUMBER_OF_BYTES_READ: 153529188352              COUNT_WRITE: 67576376SUM_NUMBER_OF_BYTES_WRITE: 1107815432192

8，哪個索引使用最多：

zjy@performance_schema 12:18:42>SELECT OBJECT_NAME, INDEX_NAME, COUNT_FETCH, COUNT_INSERT, COUNT_UPDATE, COUNT_DELETE FROM table_io_waits_summary_by_index_usage ORDER BY SUM_TIMER_WAIT DESC limit 1;+-------------+------------+-------------+--------------+--------------+--------------+| OBJECT_NAME | INDEX_NAME | COUNT_FETCH | COUNT_INSERT | COUNT_UPDATE | COUNT_DELETE |+-------------+------------+-------------+--------------+--------------+--------------+| fans        | PRIMARY    | 29002695158 |            0 |    296373434 |            0 |+-------------+------------+-------------+--------------+--------------+--------------+1 row in set (0.29 sec)

通過table_io_waits_summary_by_index_usage表，可以獲得系統(tǒng)運行到現在，哪個表的具體哪個索引(包括主鍵索引，二級索引)使用最多。

9，哪個索引沒有使用過：

zjy@performance_schema 12:23:22>SELECT OBJECT_SCHEMA, OBJECT_NAME, INDEX_NAME FROM table_io_waits_summary_by_index_usage WHERE INDEX_NAME IS NOT NULL AND COUNT_STAR = 0 AND OBJECT_SCHEMA <> 'mysql' ORDER BY OBJECT_SCHEMA,OBJECT_NAME;

10，哪個等待事件消耗的時間最多：

zjy@performance_schema 12:25:22>SELECT EVENT_NAME, COUNT_STAR, SUM_TIMER_WAIT, AVG_TIMER_WAIT FROM events_waits_summary_global_by_event_name WHERE event_name != 'idle' ORDER BY SUM_TIMER_WAIT DESC LIMIT 1;

11，類似profiling功能：

分析具體某條SQL，該SQL在執(zhí)行各個階段的時間消耗，通過events_statements_xxx表和events_stages_xxx表，就可以達到目的。兩個表通過event_id與nesting_event_id關聯(lián)，stages表的nesting_event_id為對應statements表的event_id；針對每個stage可能出現的鎖等待，一個stage會對應一個或多個wait，通過stage_xxx表的event_id字段與waits_xxx表的nesting_event_id進行關聯(lián)。如：

比如分析包含count(*)的某條SQL語句，具體如下：SELECTEVENT_ID,sql_textFROM events_statements_historyWHERE sql_text LIKE '%count(*)%';+----------+--------------------------------------+| EVENT_ID | sql_text |+----------+--------------------------------------+| 1690 | select count(*) from chuck.test_slow |+----------+--------------------------------------+首先得到了語句的event_id為1690，通過查找events_stages_xxx中nesting_event_id為1690的記錄，可以達到目的。a.查看每個階段的時間消耗：SELECTevent_id,EVENT_NAME,SOURCE,TIMER_END - TIMER_STARTFROM events_stages_history_longWHERE NESTING_EVENT_ID = 1690;+----------+--------------------------------+----------------------+-----------------------+| event_id | EVENT_NAME | SOURCE | TIMER_END-TIMER_START |+----------+--------------------------------+----------------------+-----------------------+| 1691 | stage/sql/init | mysqld.cc:990 | 316945000 || 1693 | stage/sql/checking permissions | sql_parse.cc:5776 | 26774000 || 1695 | stage/sql/Opening tables | sql_base.cc:4970 | 41436934000 || 2638 | stage/sql/init | sql_select.cc:1050 | 85757000 || 2639 | stage/sql/System lock | lock.cc:303 | 40017000 || 2643 | stage/sql/optimizing | sql_optimizer.cc:138 | 38562000 || 2644 | stage/sql/statistics | sql_optimizer.cc:362 | 52845000 || 2645 | stage/sql/preparing | sql_optimizer.cc:485 | 53196000 || 2646 | stage/sql/executing | sql_executor.cc:112 | 3153000 || 2647 | stage/sql/Sending data | sql_executor.cc:192 | 7369072089000 || 4304138 | stage/sql/end | sql_select.cc:1105 | 19920000 || 4304139 | stage/sql/query end | sql_parse.cc:5463 | 44721000 || 4304145 | stage/sql/closing tables | sql_parse.cc:5524 | 61723000 || 4304152 | stage/sql/freeing items | sql_parse.cc:6838 | 455678000 || 4304155 | stage/sql/logging slow query | sql_parse.cc:2258 | 83348000 || 4304159 | stage/sql/cleaning up | sql_parse.cc:2163 | 4433000 |+----------+--------------------------------+----------------------+-----------------------+通過間接關聯(lián)，我們能分析得到SQL語句在每個階段的時間消耗，時間單位以皮秒表示。這里展示的結果很類似profiling功能，有了performance schema，就不再需要profiling這個功能了。另外需要注意的是，由于默認情況下events_stages_history表中只為每個連接記錄了最近10條記錄，為了確保獲取所有記錄，需要訪問events_stages_history_long表b.查看某個階段的鎖等待情況針對每個stage可能出現的鎖等待，一個stage會對應一個或多個wait，events_waits_history_long這個表容易爆滿[默認閥值10000]。由于select count(*)需要IO(邏輯IO或者物理IO)，所以在stage/sql/Sending data階段會有io等待的統(tǒng)計。通過stage_xxx表的event_id字段與waits_xxx表的nesting_event_id進行關聯(lián)。SELECTevent_id,event_name,source,timer_wait,object_name,index_name,operation,nesting_event_idFROM events_waits_history_longWHERE nesting_event_id = 2647;+----------+---------------------------+-----------------+------------+-------------+------------+-----------+------------------+| event_id | event_name | source | timer_wait | object_name | index_name | operation | nesting_event_id |+----------+---------------------------+-----------------+------------+-------------+------------+-----------+------------------+| 190607 | wait/io/table/sql/handler | handler.cc:2842 | 1845888 | test_slow | idx_c1 | fetch | 2647 || 190608 | wait/io/table/sql/handler | handler.cc:2842 | 1955328 | test_slow | idx_c1 | fetch | 2647 || 190609 | wait/io/table/sql/handler | handler.cc:2842 | 1929792 | test_slow | idx_c1 | fetch | 2647 | | 190610 | wait/io/table/sql/handler | handler.cc:2842 | 1869600 | test_slow | idx_c1 | fetch | 2647 || 190611 | wait/io/table/sql/handler | handler.cc:2842 | 1922496 | test_slow | idx_c1 | fetch | 2647 |+----------+---------------------------+-----------------+------------+-------------+------------+-----------+------------------+通過上面的實驗，我們知道了statement,stage,wait的三級結構，通過nesting_event_id進行關聯(lián)，它表示某個事件的父event_id。(2).模擬innodb行鎖等待的例子會話A執(zhí)行語句update test_icp set y=y+1 where x=1(x為primary key)，不commit；會話B執(zhí)行同樣的語句update test_icp set y=y+1 where x=1，會話B堵塞，并最終報錯。通過連接連接查詢events_statements_history_long和events_stages_history_long，可以看到在updating階段花了大約60s的時間。這主要因為實例上的innodb_lock_wait_timeout設置為60，等待60s后超時報錯了。SELECTstatement.EVENT_ID,stages.event_id,statement.sql_text,stages.event_name,stages.timer_waitFROM events_statements_history_long statement join events_stages_history_long stages on statement.event_id=stages.nesting_event_id WHERE statement.sql_text = 'update test_icp set y=y+1 where x=1';+----------+----------+-------------------------------------+--------------------------------+----------------+| EVENT_ID | event_id | sql_text | event_name | timer_wait |+----------+----------+-------------------------------------+--------------------------------+----------------+| 5816 | 5817 | update test_icp set y=y+1 where x=1 | stage/sql/init | 195543000 || 5816 | 5819 | update test_icp set y=y+1 where x=1 | stage/sql/checking permissions | 22730000 || 5816 | 5821 | update test_icp set y=y+1 where x=1 | stage/sql/Opening tables | 66079000 || 5816 | 5827 | update test_icp set y=y+1 where x=1 | stage/sql/init | 89116000 || 5816 | 5828 | update test_icp set y=y+1 where x=1 | stage/sql/System lock | 218744000 || 5816 | 5832 | update test_icp set y=y+1 where x=1 | stage/sql/updating | 6001362045000 || 5816 | 5968 | update test_icp set y=y+1 where x=1 | stage/sql/end | 10435000 || 5816 | 5969 | update test_icp set y=y+1 where x=1 | stage/sql/query end | 85979000 || 5816 | 5983 | update test_icp set y=y+1 where x=1 | stage/sql/closing tables | 56562000 || 5816 | 5990 | update test_icp set y=y+1 where x=1 | stage/sql/freeing items | 83563000 || 5816 | 5992 | update test_icp set y=y+1 where x=1 | stage/sql/cleaning up | 4589000 |+----------+----------+-------------------------------------+--------------------------------+----------------+查看wait事件：SELECTevent_id,event_name,source,timer_wait,object_name,index_name,operation,nesting_event_idFROM events_waits_history_longWHERE nesting_event_id = 5832;*************************** 1. row ***************************event_id: 5832event_name: wait/io/table/sql/handlersource: handler.cc:2782timer_wait: 6005946156624object_name: test_icpindex_name: PRIMARYoperation: fetch從結果來看，waits表中記錄了一個fetch等待事件，但并沒有更細的innodb行鎖等待事件統(tǒng)計。(3).模擬MDL鎖等待的例子會話A執(zhí)行一個大查詢select count(*) from test_slow，會話B執(zhí)行表結構變更alter table test_slow modify c2 varchar(152);通過如下語句可以得到alter語句的執(zhí)行過程，重點關注“stage/sql/Waiting for table metadata lock”階段。SELECTstatement.EVENT_ID,stages.event_id,statement.sql_text,stages.event_name as stage_name,stages.timer_wait as stage_timeFROM events_statements_history_long statement left join events_stages_history_long stages on statement.event_id=stages.nesting_event_idWHERE statement.sql_text = 'alter table test_slow modify c2 varchar(152)';+-----------+-----------+----------------------------------------------+----------------------------------------------------+---------------+| EVENT_ID | event_id | sql_text | stage_name | stage_time |+-----------+-----------+----------------------------------------------+----------------------------------------------------+---------------+| 326526744 | 326526745 | alter table test_slow modify c2 varchar(152) | stage/sql/init | 216662000 || 326526744 | 326526747 | alter table test_slow modify c2 varchar(152) | stage/sql/checking permissions | 18183000 || 326526744 | 326526748 | alter table test_slow modify c2 varchar(152) | stage/sql/checking permissions | 10294000 || 326526744 | 326526750 | alter table test_slow modify c2 varchar(152) | stage/sql/init | 4783000 || 326526744 | 326526751 | alter table test_slow modify c2 varchar(152) | stage/sql/Opening tables | 140172000 || 326526744 | 326526760 | alter table test_slow modify c2 varchar(152) | stage/sql/setup | 157643000 || 326526744 | 326526769 | alter table test_slow modify c2 varchar(152) | stage/sql/creating table | 8723217000 || 326526744 | 326526803 | alter table test_slow modify c2 varchar(152) | stage/sql/After create | 257332000 || 326526744 | 326526832 | alter table test_slow modify c2 varchar(152) | stage/sql/Waiting for table metadata lock | 1000181831000 || 326526744 | 326526835 | alter table test_slow modify c2 varchar(152) | stage/sql/After create | 33483000 || 326526744 | 326526838 | alter table test_slow modify c2 varchar(152) | stage/sql/Waiting for table metadata lock | 1000091810000 || 326526744 | 326526841 | alter table test_slow modify c2 varchar(152) | stage/sql/After create | 17187000 || 326526744 | 326526844 | alter table test_slow modify c2 varchar(152) | stage/sql/Waiting for table metadata lock | 1000126464000 || 326526744 | 326526847 | alter table test_slow modify c2 varchar(152) | stage/sql/After create | 27472000 || 326526744 | 326526850 | alter table test_slow modify c2 varchar(152) | stage/sql/Waiting for table metadata lock | 561996133000 || 326526744 | 326526853 | alter table test_slow modify c2 varchar(152) | stage/sql/After create | 124876000 || 326526744 | 326526877 | alter table test_slow modify c2 varchar(152) | stage/sql/System lock | 30659000 || 326526744 | 326526881 | alter table test_slow modify c2 varchar(152) | stage/sql/preparing for alter table | 40246000 || 326526744 | 326526889 | alter table test_slow modify c2 varchar(152) | stage/sql/altering table | 36628000 || 326526744 | 326528280 | alter table test_slow modify c2 varchar(152) | stage/sql/end | 43824000 || 326526744 | 326528281 | alter table test_slow modify c2 varchar(152) | stage/sql/query end | 112557000 || 326526744 | 326528299 | alter table test_slow modify c2 varchar(152) | stage/sql/closing tables | 27707000 || 326526744 | 326528305 | alter table test_slow modify c2 varchar(152) | stage/sql/freeing items | 201614000 || 326526744 | 326528308 | alter table test_slow modify c2 varchar(152) | stage/sql/cleaning up | 3584000 |+-----------+-----------+----------------------------------------------+----------------------------------------------------+---------------+從結果可以看到，出現了多次stage/sql/Waiting for table metadata lock階段，并且間隔1s，說明每隔1s鐘會重試判斷。找一個該階段的event_id,通過nesting_event_id關聯(lián)，確定到底在等待哪個wait事件。SELECTevent_id,event_name,source,timer_wait,object_name,index_name,operation,nesting_event_idFROM events_waits_history_longWHERE nesting_event_id = 326526850;+-----------+---------------------------------------------------+------------------+--------------+-------------+------------+------------+------------------+| event_id | event_name | source | timer_wait | object_name | index_name | operation | nesting_event_id |+-----------+---------------------------------------------------+------------------+--------------+-------------+------------+------------+------------------+| 326526851 | wait/synch/cond/sql/MDL_context::COND_wait_status | mdl.cc:1327 | 562417991328 | NULL | NULL | timed_wait | 326526850 || 326526852 | wait/synch/mutex/mysys/my_thread_var::mutex | sql_class.h:3481 | 733248 | NULL | NULL | lock | 326526850 |+-----------+---------------------------------------------------+------------------+--------------+-------------+------------+------------+------------------+通過結果可以知道，產生阻塞的是條件變量MDL_context::COND_wait_status，并且顯示了代碼的位置。

總結：

本文通過對Performance Schema數據庫的介紹，主要用于收集數據庫服務器性能參數：①提供進程等待的詳細信息，包括鎖、互斥變量、文件信息；②保存歷史的事件匯總信息，為提供MySQL服務器性能做出詳細的判斷；③對于新增和刪除監(jiān)控事件點都非常容易，并可以改變mysql服務器的監(jiān)控周期，例如（CYCLE、MICROSECOND）。通過該庫得到數據庫運行的統(tǒng)計信息，更好分析定位問題和完善監(jiān)控信息。類似的監(jiān)控還有：

打開標準的innodb監(jiān)控：CREATE TABLE innodb_monitor (a INT) ENGINE=INNODB;打開innodb的鎖監(jiān)控：CREATE TABLE innodb_lock_monitor (a INT) ENGINE=INNODB;打開innodb表空間監(jiān)控：CREATE TABLE innodb_tablespace_monitor (a INT) ENGINE=INNODB;打開innodb表監(jiān)控：CREATE TABLE innodb_table_monitor (a INT) ENGINE=INNODB;

參考文章：

https://dev.mysql.com/doc/refman/5.6/en/performance-schema.html

http://www.cnblogs.com/cchust/p/5022148.html

http://www.cnblogs.com/cchust/p/5057498.html

http://www.cnblogs.com/cchust/p/5061131.html

http://mysqllover.com/?p=522

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