关于mysql:技术分享-一款功能全面的-MySQL-Shell-插件

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作者:杨涛涛

资深数据库专家,专研 MySQL 十余年。善于 MySQL、PostgreSQL、MongoDB 等开源数据库相干的备份复原、SQL 调优、监控运维、高可用架构设计等。目前任职于爱可生,为各大运营商及银行金融企业提供 MySQL 相干技术支持、MySQL 相干课程培训等工作。

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在 GITHUB 上晃荡,发现一款开源的 MySQL Shell 插件,装置配置好后,能够额定减少 MySQL Shell 的组件多样性以及相似晚期 MySQL Utilities 工具集的各种性能(MySQL Utilities 曾经不再开发了!)。

插件地址:https://github.com/lefred/mys…

装置非常简单,创立对应的 MySQL Shell Plugins 目录,完了把插件整个拷贝到此即可。

mkdir -p ~/.mysqlsh/plugins
git clone https://kgithub.com/lefred/mysqlshell-plugins.git ~/.mysqlsh/plugins

我的 OS 环境是 Fedora Server 37,拷贝完对应目录后,提醒各种 Python 包依赖谬误,能够依据日志~/.mysqlsh/mysqlsh.log 内容提醒顺次解决,此处省略步骤。

解决好各种依赖包后,进入 MySQL Shell 命令行,能够看到呈现很多新的组件:audit、check、config 等等。这里就不贴这些内容了。

我来简略演示其中几个组件:
第一,复制组件:replication。

目前的拓扑是这样的:我本地搭了三个实例 127.0.0.1:3310、127.0.0.1:3311、127.0.0.1:3312。这三个实例组建了一个正本集,3310 是主,3311 和 3312 是从。

 MySQL  localhost:3311 ssl  Py > rs.status()
{
    "replicaSet": {
        "name": "rs1", 
        "primary": "127.0.0.1:3310", 
  ...
        "topology": {
            "127.0.0.1:3310": {
                "address": "127.0.0.1:3310", 
                "instanceRole": "PRIMARY", 
                "mode": "R/W", 
                "status": "ONLINE"
            }, 
            "127.0.0.1:3311": {
                "address": "127.0.0.1:3311", 
                "instanceRole": "SECONDARY", 
                "mode": "R/O", 
...
                "status": "ONLINE"
            }, 
            "127.0.0.1:3312": {
                "address": "127.0.0.1:3312", 
                "instanceRole": "SECONDARY", 
                "mode": "R/O", 
...
                "status": "ONLINE"
            }
        }, 
        "type": "ASYNC"
    }
}

这里我被动制作了一个谬误,完后连贯到其中一台从库上应用 replication.status() 获取本机复制状态:此时 SQL 线程进行,并且显示提早 20 秒。

 MySQL  localhost:3312 ssl  Py > replication.status();
+--------------+-----------+------------+------------+
| channel_name | IO_thread | SQL_thread | lag_in_sec |
+--------------+-----------+------------+------------+
|              | ON        | OFF        | 20         |
+--------------+-----------+------------+------------+

应用 replication.error() 来获取具体谬误:发现 GTID 923dad27-8528-11ed-8796-080027382b72:78 执行失败,失败起因是主键反复。

 MySQL  localhost:3312 ssl  Py > replication.error()

 Applier error:
 2022-12-26 22:37:35.146527 : Coordinator stopped because there were error(s) in the worker(s). The most recent failure being: Worker 1 failed executing transaction '923dad27-8528-11ed-8796-080027382b72:78' at master log ytt-pc-bin.000003, end_log_pos 1105. See error log and/or performance_schema.replication_applier_status_by_worker table for more details about this failure or others, if any.
 2022-12-26 22:37:35.146532 : Worker 1 failed executing transaction '923dad27-8528-11ed-8796-080027382b72:78' at master log ytt-pc-bin.000003, end_log_pos 1105; Could not execute Write_rows event on table ytt.t1; Duplicate entry '10' for key 't1.PRIMARY', Error_code: 1062; handler error HA_ERR_FOUND_DUPP_KEY; the event's master log ytt-pc-bin.000003, end_log_pos 1105

再应用 replication.get_gtid_to_skip() 来确认具体的 GTID: 确认无疑是 923dad27-8528-11ed-8796-080027382b72:78

 MySQL  localhost:3312 ssl  Py > replication.get_gtid_to_skip()
+--------------+-----------------------------------------+
| channel_name | gtid_to_skip                            |
+--------------+-----------------------------------------+
|              | 923dad27-8528-11ed-8796-080027382b72:78 |
+--------------+-----------------------------------------+

应用 replication.skip_error() 来跳过这个 GTID:

MySQL  localhost:3312 ssl  Py > replication.skip_error();
skiping 923dad27-8528-11ed-8796-080027382b72:78 for replication channel ''...

完后在从库重启复制线程:stop replica;start replica;

MySQL  localhost:3312 ssl  SQL > stop replica;start replica;
Query OK, 0 rows affected (0.0194 sec)
Query OK, 0 rows affected (0.0347 sec)

再次查看复制是否有谬误以及以后复制状态: 没有谬误,所有恢复正常。

 MySQL  localhost:3312 ssl  Py > replication.error();

no error
 MySQL  localhost:3312 ssl  Py > replication.status();
+--------------+-----------+------------+------------+
| channel_name | IO_thread | SQL_thread | lag_in_sec |
+--------------+-----------+------------+------------+
|              | ON        | ON         | 0          |
+--------------+-----------+------------+------------+
第二、获取锁相干数据的组件:locks。

locks 组件能够获取以后事务的锁数据,包含以后锁持有以及锁期待相干线程 ID、锁持有工夫、内存占用、锁的具体行数等。上面应用 locks.get_locks() 来获取以后锁相干数据:

 MySQL  localhost:3310 ssl  Py > locks.get_locks()
+-----------------+--------------+-------------+-----------+----------------+-------------------+-------------------+-------------------------------------------------------------------+
| mysql_thread_id | trx_duration | cpu_latency | memory    | row_locks_held | row_locks_pending | tables_with_locks | current_statement                                                 |
+-----------------+--------------+-------------+-----------+----------------+-------------------+-------------------+-------------------------------------------------------------------+
|              25 | 4.43 min     |   0 ps      | 2.07 MiB  |              3 |                 0 | ytt.t1            | NULL                                                              |
|              29 | 17.51 s      |   0 ps      | 2.49 MiB  |              1 |                 0 | ytt.t1            | update t1 set r1 = 100 where id =10                               |
|               7 | 10.69 ms     |             | 15.66 KiB |              0 |                 0 | NULL              | NULL                                                              |
|              27 | 269.67 us    |   0 ps      | 10.31 MiB |              0 |                 0 | NULL              | SELECT thr.processlist_id AS m ... IT DESC               LIMIT 10 |
|              13 | 136.45 us    |   0 ps      | 1.19 MiB  |              0 |                 0 | NULL              | NULL                                                              |
+-----------------+--------------+-------------+-----------+----------------+-------------------+-------------------+-------------------------------------------------------------------+

依据后续提醒,还能够获取更多的数据:比方线程 25,持有 IX 意向锁以及 X 记录锁,以及以后期待此锁的 SQL 语句;线程 29 申请 X 记录锁却被线程 25 阻塞。

For which thread_id do you want to see locks ? (25) : 25

Metadata Locks:
---------------

GRANTED SHARED_WRITE on ytt.t1

Data Locks:
-----------

GRANTED TABLE (IX) LOCK ON ytt.t1
GRANTED RECORD (X) LOCK ON ytt.t1 (PRIMARY) (id=supremum pseudo-record)
                                            (id=10)

BLOCKING RECORD (X,REC_NOT_GAP) LOCK ON ytt.t1 FOR 12 SECONDS (mysql_thread_id: 29)

Statement we are blocking:
--------------------------

update t1 set r1 = 100 where id =10


For which thread_id do you want to see locks ? (25) : 29
Metadata Locks:
---------------
GRANTED SHARED_WRITE on ytt.t1

Data Locks:
-----------
GRANTED TABLE (IX) LOCK ON ytt.t1
WAITING RECORD (X,REC_NOT_GAP) LOCK ON ytt.t1 (PRIMARY) (id=10)

BLOCKED FOR 8 SECONDS BY (mysql_thread_id: 25)

第三、获取语句执行的 profiles 数据:profiling 组件。

先执行 profiling.start(),完后执行些语句,再用 profiling.get() 来获取具体的 profiles 数据,最初再敞开 profiling 收集。

MySQL  localhost:3310 ssl  ytt  Py > profiling.get()

Last 5 events from the proccess list id: @@pseudo_thread_id
-----------------------------------------------------------

---Events before profiling was started are in orange---
1563 : select schema()
1555 : help 'profiling'
1551 : profiling.get()
1531 : select * from t1 order by rand() limit 10
1512 : select count(*) from t1
Which event do you want to profile ? : 1531

Profiling of:
-------------

select * from t1 order by rand() limit 10
duration: 0.0162
+------------------------------------------------+----------+
| Stage                                          | Duration |
+------------------------------------------------+----------+
| stage/sql/starting                             |   0.0000 |
| stage/sql/Executing hook on transaction begin. |   0.0000 |
| stage/sql/starting                             |   0.0000 |
| stage/sql/checking permissions                 |   0.0000 |
| stage/sql/Opening tables                       |   0.0000 |
| stage/sql/init                                 |   0.0000 |
| stage/sql/System lock                          |   0.0000 |
| stage/sql/optimizing                           |   0.0000 |
| stage/sql/statistics                           |   0.0000 |
| stage/sql/preparing                            |   0.0000 |
| stage/sql/Creating tmp table                   |   0.0000 |
| stage/sql/executing                            |   0.0160 |
| stage/sql/end                                  |   0.0000 |
| stage/sql/query end                            |   0.0000 |
| stage/sql/waiting for handler commit           |   0.0000 |
| stage/sql/closing tables                       |   0.0000 |
| stage/sql/freeing items                        |   0.0000 |
| stage/sql/cleaning up                          |   0.0000 |
+------------------------------------------------+----------+
Don't forget to stop the profiling when done.
第四、连贯主库应用 innodb 组件查看有碎片的表,并且获取表大小、索引大小、碎片率等数据。
MySQL  localhost:3310 ssl  ytt  Py > innodb.get_fragmented_tables_disk()
Warning: information_schema_stats_expiry is set to 86400.
Do you want to change it ? (y/N) : n
+--------+-------+-----------+------------+------------+-----------+-----------+-------------+--------+
| NAME   | ROWS  | DATA_SIZE | INDEX_SIZE | TOTAL_SIZE | DATA_FREE | FILE_SIZE | WASTED_SIZE | FREE   |
+--------+-------+-----------+------------+------------+-----------+-----------+-------------+--------+
| ytt/t1 | 28861 | 4.52 MiB  |    0 bytes | 4.52 MiB   | 4.00 MiB  | 12.00 MiB | 7.48 MiB    | 62.37% |
+--------+-------+-----------+------------+------------+-----------+-----------+-------------+--------+
Don't forget to run'ANALYZE TABLE ...' for a more accurate result.
第五、应用 check 组件来获取 binlog 的 IO 数据:因为格局不难看,我截了张图。能够展现现存所有 binlog 文件的读写频率、读写数据等信息。

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