MySQL的insert会阻塞update?

2023-04-06 09:24:20 浏览数 (1)

某银行客户在从Oracle迁移到MySQL的开发中,MySQL在READ-COMMITTED隔离级别下,出现了insert阻塞update的情况,但同样的情况下,Oracle的insert则不会阻塞update。本文通过复现该问题,分析MySQL的锁信息,确认是MySQL与Oracle在并发事务处理上的差异,在进行数据库迁移改造的程序开发应予以关注。

1. 问题复现

1.1 环境准备

MySQL版本8.0.26,隔离级别是READ-COMMITTED ,测试表t的字段a为主键。

代码语言:javascript复制
mysql> select version();
 ----------- 
| version() |
 ----------- 
| 8.0.26    |
 ----------- 
1 row in set (0.02 sec)

mysql> show variables like 'transaction_isolation';
 ----------------------- ---------------- 
| Variable_name         | Value          |
 ----------------------- ---------------- 
| transaction_isolation | READ-COMMITTED |
 ----------------------- ---------------- 
1 row in set (0.00 sec)

mysql> desc t;
 ------- ------ ------ ----- --------- ------- 
| Field | Type | Null | Key | Default | Extra |
 ------- ------ ------ ----- --------- ------- 
| a     | int  | NO   | PRI | NULL    |       |
| b     | int  | YES  |     | NULL    |       |
 ------- ------ ------ ----- --------- ------- 
2 rows in set (0.01 sec)

mysql> select * from t;
 --- ------ 
| a | b    |
 --- ------ 
| 7 |    7 |
 --- ------ 
1 row in set (0.00 sec)

1.2 insert阻塞update的操作步骤

insert语句未提交时,update同样主键的数据会被阻塞。

session1

session2

插入一条数据(a=8)后未提交。mysql> begin;Query OK, 0 rows affected (0.00 sec)mysql> insert into t values(8,8);Query OK, 1 row affected (0.01 sec)

更改数据,条件是a=8,将会被阻塞mysql> update t set b=0 where a=8;<<挂起,等待innodb_lock_wait_timeout超时

2. 分析原因

2.1. 检查事务锁信息

代码语言:javascript复制
mysql> select * from information_schema.innodb_trxG
*************************** 1. row ***************************
                    trx_id: 3795
                 trx_state: LOCK WAIT
               trx_started: 2022-10-11 16:03:38
     trx_requested_lock_id: 139727275779216:52:4:3:139724882995456
          trx_wait_started: 2022-10-11 16:03:38
                trx_weight: 2
       trx_mysql_thread_id: 9346
                 trx_query: update t set b=0 where a=8
       trx_operation_state: starting index read
         trx_tables_in_use: 1
         trx_tables_locked: 1
          trx_lock_structs: 2
     trx_lock_memory_bytes: 1128
           trx_rows_locked: 1
         trx_rows_modified: 0
   trx_concurrency_tickets: 0
       trx_isolation_level: READ COMMITTED
         trx_unique_checks: 1
    trx_foreign_key_checks: 1
trx_last_foreign_key_error: NULL
 trx_adaptive_hash_latched: 0
 trx_adaptive_hash_timeout: 0
          trx_is_read_only: 0
trx_autocommit_non_locking: 0
       trx_schedule_weight: 1
*************************** 2. row ***************************
                    trx_id: 3790
                 trx_state: RUNNING
               trx_started: 2022-10-11 16:03:29
     trx_requested_lock_id: NULL
          trx_wait_started: NULL
                trx_weight: 3
       trx_mysql_thread_id: 9320
                 trx_query: NULL
       trx_operation_state: NULL
         trx_tables_in_use: 0
         trx_tables_locked: 1
          trx_lock_structs: 2
     trx_lock_memory_bytes: 1128
           trx_rows_locked: 1
         trx_rows_modified: 1
   trx_concurrency_tickets: 0
       trx_isolation_level: READ COMMITTED
         trx_unique_checks: 1
    trx_foreign_key_checks: 1
trx_last_foreign_key_error: NULL
 trx_adaptive_hash_latched: 0
 trx_adaptive_hash_timeout: 0
          trx_is_read_only: 0
trx_autocommit_non_locking: 0
       trx_schedule_weight: NULL
2 rows in set (0.00 sec)

说明:通过InnoDB的事务表innodb_trx查询到thread_id=9346的事务3795正在等待锁(trx_state: LOCK WAIT),
thread_id=9320的事务3790正在执行(trx_state: RUNNING)。

mysql> select * from performance_schema.data_locksG
*************************** 1. row ***************************
               ENGINE: INNODB
       ENGINE_LOCK_ID: 139727275779216:1113:139724882998560
ENGINE_TRANSACTION_ID: 3795
            THREAD_ID: 9441
             EVENT_ID: 5000
        OBJECT_SCHEMA: testdb
          OBJECT_NAME: t
       PARTITION_NAME: NULL
    SUBPARTITION_NAME: NULL
           INDEX_NAME: NULL
OBJECT_INSTANCE_BEGIN: 139724882998560
            LOCK_TYPE: TABLE
            LOCK_MODE: IX
          LOCK_STATUS: GRANTED
            LOCK_DATA: NULL
*************************** 2. row ***************************
               ENGINE: INNODB
       ENGINE_LOCK_ID: 139727275779216:52:4:3:139724882995456
ENGINE_TRANSACTION_ID: 3795
            THREAD_ID: 9441
             EVENT_ID: 5012
        OBJECT_SCHEMA: testdb
          OBJECT_NAME: t
       PARTITION_NAME: NULL
    SUBPARTITION_NAME: NULL
           INDEX_NAME: PRIMARY
OBJECT_INSTANCE_BEGIN: 139724882995456
            LOCK_TYPE: RECORD
            LOCK_MODE: X,REC_NOT_GAP
          LOCK_STATUS: WAITING
            LOCK_DATA: 8
*************************** 3. row ***************************
               ENGINE: INNODB
       ENGINE_LOCK_ID: 139727275781640:1113:139724883017072
ENGINE_TRANSACTION_ID: 3790
            THREAD_ID: 9415
             EVENT_ID: 15467
        OBJECT_SCHEMA: testdb
          OBJECT_NAME: t
       PARTITION_NAME: NULL
    SUBPARTITION_NAME: NULL
           INDEX_NAME: NULL
OBJECT_INSTANCE_BEGIN: 139724883017072
            LOCK_TYPE: TABLE
            LOCK_MODE: IX
          LOCK_STATUS: GRANTED
            LOCK_DATA: NULL
*************************** 4. row ***************************
               ENGINE: INNODB
       ENGINE_LOCK_ID: 139727275781640:52:4:3:139724883013968
ENGINE_TRANSACTION_ID: 3790
            THREAD_ID: 9441
             EVENT_ID: 5007
        OBJECT_SCHEMA: testdb
          OBJECT_NAME: t
       PARTITION_NAME: NULL
    SUBPARTITION_NAME: NULL
           INDEX_NAME: PRIMARY
OBJECT_INSTANCE_BEGIN: 139724883013968
            LOCK_TYPE: RECORD
            LOCK_MODE: X,REC_NOT_GAP
          LOCK_STATUS: GRANTED
            LOCK_DATA: 8
4 rows in set (0.00 sec)
说明:事务3795正在等待LOCK_TYPE: RECORD,LOCK_MODE:X,REC_NOT_GAP,等待的主键值为8;
事务3790已获取主键值为8的LOCK_TYPE: RECORD,LOCK_MODE:X,REC_NOT_GAP锁。

mysql> select * from sys.innodb_lock_waitsG
*************************** 1. row ***************************
                wait_started: 2022-10-11 16:03:38
                    wait_age: 00:02:50
               wait_age_secs: 170
                locked_table: `testdb`.`t`
         locked_table_schema: testdb
           locked_table_name: t
      locked_table_partition: NULL
   locked_table_subpartition: NULL
                locked_index: PRIMARY
                 locked_type: RECORD
              waiting_trx_id: 3795
         waiting_trx_started: 2022-10-11 16:03:38
             waiting_trx_age: 00:02:50
     waiting_trx_rows_locked: 1
   waiting_trx_rows_modified: 0
                 waiting_pid: 9346
               waiting_query: update t set b=0 where a=8
             waiting_lock_id: 139727275779216:52:4:3:139724882995456
           waiting_lock_mode: X,REC_NOT_GAP
             blocking_trx_id: 3790
                blocking_pid: 9320
              blocking_query: NULL
            blocking_lock_id: 139727275781640:52:4:3:139724883013968
          blocking_lock_mode: X,REC_NOT_GAP
        blocking_trx_started: 2022-10-11 16:03:29
            blocking_trx_age: 00:02:59
    blocking_trx_rows_locked: 1
  blocking_trx_rows_modified: 1
     sql_kill_blocking_query: KILL QUERY 9320
sql_kill_blocking_connection: KILL 9320
1 row in set (0.01 sec)
说明:事务3795等待testdb.t上的rec_not_gap独占锁,事务3790持有该独占锁。
mysql> select distinct,* from sys.processlist where conn_id in (select trx_mysql_thread_id from information_schema.innodb_trx)G
*************************** 1. row ***************************
                thd_id: 9441
               conn_id: 9346
                  user: admin@172.17.128.73
                    db: testdb
               command: Query
                 state: updating
                  time: 141
     current_statement: update t set b=0 where a=8
     statement_latency: 2.37 min
              progress: NULL
          lock_latency: 431.00 us
         rows_examined: 0
             rows_sent: 0
         rows_affected: 0
            tmp_tables: 0
       tmp_disk_tables: 0
             full_scan: NO
        last_statement: NULL
last_statement_latency: NULL
        current_memory: 140.15 KiB
             last_wait: wait/io/table/sql/handler
     last_wait_latency: Still Waiting
                source: handler.cc:3250
           trx_latency: 13.30 min
             trx_state: ACTIVE
        trx_autocommit: NO
                   pid: 9632
          program_name: mysql
*************************** 2. row ***************************
                thd_id: 9415
               conn_id: 9320
                  user: admin@172.17.128.73
                    db: testdb
               command: Sleep
                 state: NULL
                  time: 801
     current_statement: NULL
     statement_latency: NULL
              progress: NULL
          lock_latency: 288.00 us
         rows_examined: 0
             rows_sent: 0
         rows_affected: 1
            tmp_tables: 0
       tmp_disk_tables: 0
             full_scan: NO
        last_statement: insert into t values(8,8)
last_statement_latency: 765.23 us
        current_memory: 218.19 KiB
             last_wait: wait/io/socket/sql/client_connection
     last_wait_latency: Still Waiting
                source: viosocket.cc:146
           trx_latency: 13.52 min
             trx_state: ACTIVE
        trx_autocommit: NO
                   pid: 9600
          program_name: mysql
说明:被阻塞事务执行的sql语句update t set b=0 where a=8,
阻塞事务执行的sql语句是insert into t values(8,8)。

说明:MySQL的隔离级别是通过索引上的锁实现并发事务控制的。在READ-COMMITTED隔离级别下,session1执行insert语句时,在主键索引上获取了a=8的行记录独占锁,以禁止插入相同主键的数据;session2如果同时插入相同的主键数据被阻塞,容易理解(Oracle也同样阻塞)。出于同样的原因session2执行update时,由于无法获取a=8的行记录独占锁,同样也会被阻塞。

2.2 验证MySQL事务未提交时已写入数据文件

验证事务未提交时,insert语句已将数据写入数据文件,索引数据也已生成。

代码语言:javascript复制
测试表test1
mysql> CREATE TABLE `test1` (
    ->   `id` int NOT NULL AUTO_INCREMENT,
    ->   `k` int NOT NULL DEFAULT '0',
    ->   `c` char(120) NOT NULL DEFAULT '',
    ->   `pad` char(60) NOT NULL DEFAULT '',
    ->   PRIMARY KEY (`id`),
    ->   KEY `k_1` (`k`)
    -> ) ;
Query OK, 0 rows affected (0.07 sec)

开启一个事务,插入10万条数据。
mysql> begin;
Query OK, 0 rows affected (0.00 sec)

mysql> insert into test1 select * from sbtest1;
Query OK, 100000 rows affected (1.44 sec)
Records: 100000  Duplicates: 0  Warnings: 0

检查表的data_length和index_length
mysql> show table status where name like 'test1'G
*************************** 1. row ***************************
           Name: test1
         Engine: InnoDB
        Version: 10
     Row_format: Dynamic
           Rows: 98712
 Avg_row_length: 228
    Data_length: 22593536
Max_data_length: 0
   Index_length: 2637824
      Data_free: 4194304
 Auto_increment: 100001
    Create_time: 2022-10-11 22:14:50
    Update_time: NULL
     Check_time: NULL
      Collation: utf8mb4_0900_ai_ci
       Checksum: NULL
 Create_options: 
        Comment: 
1 rows in set (0.01 sec)

回滚insert操作
mysql> rollback;
Query OK, 0 rows affected (1.35 sec)

更新统计信息
mysql> analyze table test1;

再次检查表的data_length和index_length
mysql> show table status where name like 'test1'G 
*************************** 1. row ***************************
           Name: test1
         Engine: InnoDB
        Version: 10
     Row_format: Dynamic
           Rows: 0
 Avg_row_length: 0
    Data_length: 16384
Max_data_length: 0
   Index_length: 16384
      Data_free: 29360128
 Auto_increment: 100001
    Create_time: 2022-10-11 22:22:36
    Update_time: NULL
     Check_time: NULL
      Collation: utf8mb4_0900_ai_ci
       Checksum: NULL
 Create_options: 
        Comment: 
1 row in set (0.00 sec)

检查数据文件的大小
[root@host73 testdb]# ll *test1.ibd
-rw-r----- 1 greatdb greatdb 30408704 Oct 11 15:12 sbtest1.ibd
-rw-r----- 1 greatdb greatdb 33554432 Oct 11 22:24 test1.ibd

说明:MySQL在执行insert 语句进行数据插入,未提交时,数据也已写入表的聚集索引,辅助索引也已生成。MySQL可以使用未提交数据的索引,通过锁机制实现事务的并发控制。

3. Oracle中insert没有阻塞update

在Oracle中,创建同样的测试表t,执行同样的insert和update,但insert不会阻塞update。

代码语言:javascript复制
CREATE TABLE t (
  a int NOT NULL PRIMARY KEY ,
  b int DEFAULT NULL
);
insert into t values(7,7);
commit;

执行相同的insert和update语句。

session1

session2

SQL> insert into t values(8,8);

1 row created.

SQL> update t set b=0 where a=8;0 rows updated.

可能有朋友了解,Oralce通过回滚段实现的一致性读,进而保证并发,这就是区别所在。

因此,多了解数据的实现原理,不将它当作"黑盒",更有助于我们针对性地用好数据库。而且这些成熟的产品,很多设计场景,都值得我们借鉴和学习,站在巨人的肩膀,可以拓宽我们的眼界,增加我们考虑问题的周全性,有助于提供更适合的解决方案。

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