一、pt-osc的工作原理
(1.1)基本原理步骤
1、创建一个和源表一样表结构的新表
2、在新表执行DDL语句
3、在源表创建三个触发器分别对应insert、update、delete操作
4、从源表拷贝数据到新表,拷贝过程中源表通过触发器把新的DML操作更新到新表中
5、rename源表到old表中,把新表rename为源表,默认最后删除源表
general log种已经算比较详细了,但不同参数可能结果还是会有不少区别,此处不多分析,精简一下osc的几个重要的步骤如下:
| 步骤 | 操作 |
|---|---|
| step1 | 检查原表是否由主键和触发器 |
| step2 | 被操作表是S表,创建tmp-S数据表 |
| step3 | 在S表上创建insert update delete触发器 |
| step4 | 全量数据同步过去 |
| step5 | 全量同步的过程中,新产生的增量(变化)数据就触发到tmp-S表中 |
| step6 | 新旧表重命名(元数据锁,短暂锁表) |
| step7 | 删除旧表,删除触发器 |
general log 提炼全过程
step1:略 step2: (root@localhost) [(none)]> truncate mysql.general_log; Query OK, 0 rows affected (1.65 sec) (root@localhost) [(none)]> set global general_log = 1; Query OK, 0 rows affected (0.00 sec) (root@localhost) [(none)]> set global log_output = 'table'; Query OK, 0 rows affected (0.01 sec) step 3: pt-online-schema-change --alter "add index index_c (c)" --socket=/tmp/mysql.sock --user=root --password=123 D=test,t=sbtest1 --execute No slaves found. See --recursion-method if host VM_221_162_centos has slaves. Not checking slave lag because no slaves were found and --check-slave-lag was not specified. Operation, tries, wait: analyze_table, 10, 1 copy_rows, 10, 0.25 create_triggers, 10, 1 drop_triggers, 10, 1 swap_tables, 10, 1 update_foreign_keys, 10, 1 Altering `test`.`sbtest1`... Creating new table... Created new table test._sbtest1_new OK. Altering new table... Altered `test`.`_sbtest1_new` OK. 2017-11-30T18:28:19 Creating triggers... 2017-11-30T18:28:19 Created triggers OK. 2017-11-30T18:28:19 Copying approximately 493200 rows... 2017-11-30T18:28:41 Copied rows OK. 2017-11-30T18:28:41 Analyzing new table... 2017-11-30T18:28:41 Swapping tables... 2017-11-30T18:28:41 Swapped original and new tables OK. 2017-11-30T18:28:41 Dropping old table... 2017-11-30T18:28:41 Dropped old table `test`.`_sbtest1_old` OK. 2017-11-30T18:28:41 Dropping triggers... 2017-11-30T18:28:41 Dropped triggers OK. Successfully altered `test`.`sbtest1`. 上面已经可以看出个大概过程了 step 4: 这一步详细分5块分析如下: (root@localhost) [(none)]> set global log_output = 'file'; Query OK, 0 rows affected (0.00 sec) (root@localhost) [(none)]> set global general_log = 0; Query OK, 0 rows affected (0.01 sec) (root@localhost) [mysql]> select argument from mysql.general_log; root@localhost on test using Socket set autocommit=1 SHOW VARIABLES LIKE 'innodb\_lock_wait_timeout' SET SESSION innodb_lock_wait_timeout=1 SHOW VARIABLES LIKE 'lock\_wait_timeout' SET SESSION lock_wait_timeout=60 SHOW VARIABLES LIKE 'wait\_timeout' SET SESSION wait_timeout=10000 SELECT @@SQL_MODE SET @@SQL_QUOTE_SHOW_CREATE = 1/*!40101, @@SQL_MODE='NO_AUTO_VALUE_ON_ZERO,ONLY_FULL_GROUP_BY,STRICT_TRANS_TABLES,NO_ZERO_IN_DATE,NO_ZERO_DATE,ERROR_FOR_DIVISION_BY_ZERO,NO_AUTO_CREATE_USER,NO_ENGINE_SUBSTITUTION'*/ SELECT @@server_id /*!50038 , @@hostname*/ 说明: 1、设置session级的变量 SET SESSION innodb_lock_wait_timeout=1 SET SESSION lock_wait_timeout=60 SET SESSION wait_timeout=10000 ----------------------------------------- SHOW VARIABLES LIKE 'version%' SHOW ENGINES SHOW VARIABLES LIKE 'innodb_version' SHOW VARIABLES LIKE 'innodb_stats_persistent' SELECT @@SERVER_ID SHOW GRANTS FOR CURRENT_USER() SHOW FULL PROCESSLIST SHOW SLAVE HOSTS SHOW GLOBAL STATUS LIKE 'Threads_running' SHOW GLOBAL STATUS LIKE 'Threads_running' SELECT CONCAT(@@hostname, @@port) SHOW TABLES FROM `test` LIKE 'sbtest1' SELECT VERSION() SHOW TRIGGERS FROM `test` LIKE 'sbtest1' /*!40101 SET @OLD_SQL_MODE := @@SQL_MODE, @@SQL_MODE := '', @OLD_QUOTE := @@SQL_QUOTE_SHOW_CREATE, @@SQL_QUOTE_SHOW_CREATE := 1 */ USE `test` SHOW CREATE TABLE `test`.`sbtest1` /*!40101 SET @@SQL_MODE := @OLD_SQL_MODE, @@SQL_QUOTE_SHOW_CREATE := @OLD_QUOTE */ EXPLAIN SELECT * FROM `test`.`sbtest1` WHERE 1=1 SELECT table_schema, table_name FROM information_schema.key_column_usage WHERE referenced_table_schema='test' AND referenced_table_name='sbtest1' SHOW VARIABLES LIKE 'wsrep_on' /*!40101 SET @OLD_SQL_MODE := @@SQL_MODE, @@SQL_MODE := '', @OLD_QUOTE := @@SQL_QUOTE_SHOW_CREATE, @@SQL_QUOTE_SHOW_CREATE := 1 */ 说明: 1、查看变量,当前用户的权限,slave信息,版本信息等 2、检查sbtest1是否存在触发器 3、执行计划 4、检查sbtest1是否存在外键关联 ----------------------------------------- USE `test` SHOW CREATE TABLE `test`.`sbtest1` /*!40101 SET @@SQL_MODE := @OLD_SQL_MODE, @@SQL_QUOTE_SHOW_CREATE := @OLD_QUOTE */ CREATE TABLE `test`.`_sbtest1_new` ( `id` int(11) NOT NULL AUTO_INCREMENT, `k` int(11) NOT NULL DEFAULT '0', `c` char(120) NOT NULL DEFAULT '', `pad` char(60) NOT NULL DEFAULT '', PRIMARY KEY (`id`), KEY `k_1` (`k`) ) ENGINE=InnoDB AUTO_INCREMENT=500001 DEFAULT CHARSET=latin1 ALTER TABLE `test`.`_sbtest1_new` add index index_c (c) /*!40101 SET @OLD_SQL_MODE := @@SQL_MODE, @@SQL_MODE := '', @OLD_QUOTE := @@SQL_QUOTE_SHOW_CREATE, @@SQL_QUOTE_SHOW_CREATE := 1 */ USE `test` SHOW CREATE TABLE `test`.`_sbtest1_new` /*!40101 SET @@SQL_MODE := @OLD_SQL_MODE, @@SQL_QUOTE_SHOW_CREATE := @OLD_QUOTE */ SELECT TRIGGER_SCHEMA, TRIGGER_NAME, DEFINER, ACTION_STATEMENT, SQL_MODE, CHARACTER_SET_CLIENT, COLLATION_CONNECTION, EVENT_MANIPULATION, ACTION_TIMING FROM INFORMATION_SCHEMA.TRIGGERS WHERE EVENT_MANIPULATION = 'DELETE' AND ACTION_TIMING = 'AFTER' AND TRIGGER_SCHEMA = 'test' AND EVENT_OBJECT_TABLE = 'sbtest1' SELECT TRIGGER_SCHEMA, TRIGGER_NAME, DEFINER, ACTION_STATEMENT, SQL_MODE, CHARACTER_SET_CLIENT, COLLATION_CONNECTION, EVENT_MANIPULATION, ACTION_TIMING FROM INFORMATION_SCHEMA.TRIGGERS WHERE EVENT_MANIPULATION = 'UPDATE' AND ACTION_TIMING = 'AFTER' AND TRIGGER_SCHEMA = 'test' AND EVENT_OBJECT_TABLE = 'sbtest1' SELECT TRIGGER_SCHEMA, TRIGGER_NAME, DEFINER, ACTION_STATEMENT, SQL_MODE, CHARACTER_SET_CLIENT, COLLATION_CONNECTION, EVENT_MANIPULATION, ACTION_TIMING FROM INFORMATION_SCHEMA.TRIGGERS WHERE EVENT_MANIPULATION = 'INSERT' AND ACTION_TIMING = 'AFTER' AND TRIGGER_SCHEMA = 'test' AND EVENT_OBJECT_TABLE = 'sbtest1' SELECT TRIGGER_SCHEMA, TRIGGER_NAME, DEFINER, ACTION_STATEMENT, SQL_MODE, CHARACTER_SET_CLIENT, COLLATION_CONNECTION, EVENT_MANIPULATION, ACTION_TIMING FROM INFORMATION_SCHEMA.TRIGGERS WHERE EVENT_MANIPULATION = 'DELETE' AND ACTION_TIMING = 'BEFORE' AND TRIGGER_SCHEMA = 'test' AND EVENT_OBJECT_TABLE = 'sbtest1' SELECT TRIGGER_SCHEMA, TRIGGER_NAME, DEFINER, ACTION_STATEMENT, SQL_MODE, CHARACTER_SET_CLIENT, COLLATION_CONNECTION, EVENT_MANIPULATION, ACTION_TIMING FROM INFORMATION_SCHEMA.TRIGGERS WHERE EVENT_MANIPULATION = 'UPDATE' AND ACTION_TIMING = 'BEFORE' AND TRIGGER_SCHEMA = 'test' AND EVENT_OBJECT_TABLE = 'sbtest1' SELECT TRIGGER_SCHEMA, TRIGGER_NAME, DEFINER, ACTION_STATEMENT, SQL_MODE, CHARACTER_SET_CLIENT, COLLATION_CONNECTION, EVENT_MANIPULATION, ACTION_TIMING FROM INFORMATION_SCHEMA.TRIGGERS WHERE EVENT_MANIPULATION = 'INSERT' AND ACTION_TIMING = 'BEFORE' AND TRIGGER_SCHEMA = 'test' AND EVENT_OBJECT_TABLE = 'sbtest1' CREATE TRIGGER `pt_osc_test_sbtest1_del` AFTER DELETE ON `test`.`sbtest1` FOR EACH ROW DELETE IGNORE FROM `test`.`_sbtest1_new` WHERE `test`.`_sbtest1_new`.`id` <=> OLD.`id` CREATE TRIGGER `pt_osc_test_sbtest1_upd` AFTER UPDATE ON `test`.`sbtest1` FOR EACH ROW BEGIN DELETE IGNORE FROM `test`.`_sbtest1_new` WHERE !(OLD.`id` <=> NEW.`id`) AND `test`.`_sbtest1_new`.`id` <=> OLD.`id`;REPLACE INTO `test`.`_sbtest1_new` (`id`, `k`, `c`, `pad`) VALUES (NEW.`id`, NEW.`k`, NEW.`c`, NEW.`pad`);END CREATE TRIGGER `pt_osc_test_sbtest1_ins` AFTER INSERT ON `test`.`sbtest1` FOR EACH ROW REPLACE INTO `test`.`_sbtest1_new` (`id`, `k`, `c`, `pad`) VALUES (NEW.`id`, NEW.`k`, NEW.`c`, NEW.`pad`) 说明: 1、根据原表的表结构结创建一张新表 2、对新表上的c字段加索引,这里依然用的是alter 3、检查原表上触发器情况,5.6开始同一张表上不能存在同一个动作的触发器 4、针对新表创建三个触发器,DELETE,UPDATE和INSERT(重点看下三个触发器内容) ----------------------------------------- EXPLAIN SELECT * FROM `test`.`sbtest1` WHERE 1=1 SELECT /*!40001 SQL_NO_CACHE */ `id` FROM `test`.`sbtest1` FORCE INDEX(`PRIMARY`) ORDER BY `id` LIMIT 1 /*first lower boundary*/ SELECT /*!40001 SQL_NO_CACHE */ `id` FROM `test`.`sbtest1` FORCE INDEX (`PRIMARY`) WHERE `id` IS NOT NULL ORDER BY `id` LIMIT 1 /*key_len*/ EXPLAIN SELECT /*!40001 SQL_NO_CACHE */ * FROM `test`.`sbtest1` FORCE INDEX (`PRIMARY`) WHERE `id` >= '1' /*key_len*/ EXPLAIN SELECT /*!40001 SQL_NO_CACHE */ `id` FROM `test`.`sbtest1` FORCE INDEX(`PRIMARY`) WHERE ((`id` >= '1')) ORDER BY `id` LIMIT 999, 2 /*next chunk boundary*/ SELECT /*!40001 SQL_NO_CACHE */ `id` FROM `test`.`sbtest1` FORCE INDEX(`PRIMARY`) WHERE ((`id` >= '1')) ORDER BY `id` LIMIT 999, 2 /*next chunk boundary*/ EXPLAIN SELECT `id`, `k`, `c`, `pad` FROM `test`.`sbtest1` FORCE INDEX(`PRIMARY`) WHERE ((`id` >= '1')) AND ((`id` <= '1000')) LOCK IN SHARE MODE /*explain pt-online-schema-change 16157 copy nibble*/ INSERT LOW_PRIORITY IGNORE INTO `test`.`_sbtest1_new` (`id`, `k`, `c`, `pad`) SELECT `id`, `k`, `c`, `pad` FROM `test`.`sbtest1` FORCE INDEX(`PRIMARY`) WHERE ((`id` >= '1')) AND ((`id` <= '1000')) LOCK IN SHARE MODE /*pt-online-schema-change 16157 copy nibble*/ SHOW WARNINGS SHOW GLOBAL STATUS LIKE 'Threads_running' EXPLAIN SELECT /*!40001 SQL_NO_CACHE */ `id` FROM `test`.`sbtest1` FORCE INDEX(`PRIMARY`) WHERE ((`id` >= '1001')) ORDER BY `id` LIMIT 3787, 2 /*next chunk boundary*/ SELECT /*!40001 SQL_NO_CACHE */ `id` FROM `test`.`sbtest1` FORCE INDEX(`PRIMARY`) WHERE ((`id` >= '1001')) ORDER BY `id` LIMIT 3787, 2 /*next chunk boundary*/ EXPLAIN SELECT `id`, `k`, `c`, `pad` FROM `test`.`sbtest1` FORCE INDEX(`PRIMARY`) WHERE ((`id` >= '1001')) AND ((`id` <= '4788')) LOCK IN SHARE MODE /*explain pt-online-schema-change 16157 copy nibble*/ INSERT LOW_PRIORITY IGNORE INTO `test`.`_sbtest1_new` (`id`, `k`, `c`, `pad`) SELECT `id`, `k`, `c`, `pad` FROM `test`.`sbtest1` FORCE INDEX(`PRIMARY`) WHERE ((`id` >= '1001')) AND ((`id` <= '4788')) LOCK IN SHARE MODE /*pt-online-schema-change 16157 copy nibble*/ SHOW WARNINGS SHOW GLOBAL STATUS LIKE 'Threads_running' 说明: 1、chunk太多,此处只贴两组 2、以chunk为单位进行目标表数据的拷贝(根据pk或uk分片),有专门的参数指定怎么分片 3、在拷贝的过程中,对目标表的相关记录加了lock in share mode mode保证数据一致性,此时,会堵塞客户端对这些记录的DML操作 4、LOW_PRIORITY插入,降低优先级插入,等表上无其他操作时才插 5、SHOW GLOBAL STATUS LIKE 'Threads_running'检查当前正在运行的Threads数量,默认Threads_running=25,如果未指定最大值,则会取当前值的120%作为最大值,如果超过阀值则会暂停数据拷贝 6、很多explain语句?原因是没指定chunk大小,第一次默认分1000条记录,后面chunk具体多少根据执行计划判断成本,不影响系统正常运行则执行insert ----------------------------------------- RENAME TABLE `test`.`sbtest1` TO `test`.`_sbtest1_old`, `test`.`_sbtest1_new` TO `test`.`sbtest1` DROP TABLE IF EXISTS `test`.`_sbtest1_old` DROP TRIGGER IF EXISTS `test`.`pt_osc_test_sbtest1_del` DROP TRIGGER IF EXISTS `test`.`pt_osc_test_sbtest1_upd` DROP TRIGGER IF EXISTS `test`.`pt_osc_test_sbtest1_ins` SHOW TABLES FROM `test` LIKE '\_sbtest1\_new' 说明: 1、ANALYZE更新新表的统计信息 2、新老两张表重命名 3、删除原表 4、删除触发器
重点提炼:
(1.2)如何保证全量先过去还是增量先过去?
insert、update两个触发器都是replace机制,解决了增量先于全量导致数据不对的问题
比如update一条记录,全量的还没进来,你update啥呢?是空数据,就不执行,但没关系,我先把最新数据插进去,全量过来冲突了就ignore,此时无主键就会导致数据错误
ignore表示出错了,不会返回出错信息,直接忽略
update的ignore:增量数据先执行了,又接着导原来的数据进去可能会主键冲突
delete的ignore:导入过程中,原表一条数据被删除,之后的导入过程中已经没有这条记录了,那么新表中delete时找不到该记录
(1.3)怎样保证limit 1000 数据一致?
数据一致是由lock in share mode保证
(1.4)为什么不直接先全量后增量?
不好控制,先建触发器,所以肯定有增量比全量之先过去,如果触发器后建,那导入全量的时候产生的增量又没办法弄了
(1.5)osc的一些限制
①表上一定要有主键(操作主键有风险需注意)
一方面chunck分片时要用主键,另一方面降低数据错误的风险
②表上有外键怎么办?
--alter-foreign-keys-metho=rebuild_constraints
③原表不能存在触发器
同一个表不能存在同一类型的触发器(5.7版本已经没有这个限制)
④只支持innodb,并且实例上空闲空间大于原表1倍以上
【1.6】go-ost
GitHub's online schema migration for MySQL
https://github.com/github/gh-ost
image.png
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先连接到主库上,根据alter语句创建所需的新表;
-
作为一个“备库”连接到其中一个真正的备库上,一边在主库上拷贝已有的数据到新表,一边从备库上拉取增量数据的binlog;
-
然后不断的把 binlog 应用回主库;
-
cut-over是最后一步,锁住主库的源表,等待binlog 应用完毕,然后替换gh-ost表为源表。
go-ost基于bin-log同步 , 基于binlog肯定都是伪装成一个replica。
由于使用单线程回放binlog来替换触发器,所以增量DML回放效率不如触发器,因为pt-osc的增量回放并发度是与业务DML并发度相同的,是多线程的。
相对于percona的优势是:
-
对于DDL操作的灵活度掌控,可暂停,可动态修改参数;DBA可以根据执行情况来快速调整预设的参数,可快可慢,实现DDL操作性能和对业务影响的平衡;
-
更为稳健的切表控制:将-cut-over-lock-timeout-seconds和-default-retries 配合使用,可以对切表进行灵活的控制。避免pt-osc切表异常导致对业务造成严重影响;
二、pt-osc工具的限制
1、源表不能有触发器存在(insert、update、delete)
2、源表必须要有主键或唯一索引,如果没有工具将停止工作
3、源表有外键,必须使用–alter-foreign-keys-method指定特定的值
4、如果线上的复制环境过滤器操作过于复杂,工具将无法工作
5、如果开启复制延迟检查,但主从延迟时,工具将暂停数据拷贝工作
6、如果开启主服务器负载检查,但主服务器负载较高时,工具将暂停操作
7、只支持Innodb存储引擎表,且要求服务器上有该表1倍以上的空闲空间。
8、修改索引、外键、列名时,优先采用online ddl,并指定 ALGORITHM=INPLACE
三、安装pt-osc工具
下载地址:https://www.percona.com/downloads/percona-toolkit/LATEST/
(3.1)yum安装
wget https://www.percona.com/downloads/percona-toolkit/3.2.1/binary/redhat/7/x86_64/percona-toolkit-3.2.1-1.el7.x86_64.rpm yum -y install percona-toolkit-3.2.1-1.el7.x86_64.rpm
(3.2)二进制安装
安装包已经下载上传到机器:
tar -zxvf percona-toolkit-3.0.12.tar.gz cd percona-toolkit-3.0.12/bin cp pt-online-schema-change /usr/bin/
四、基本使用 与 参数
(4.1)基本使用案例
[root@mysql ~]# pt-online-schema-change --host="127.0.0.1" --port=3306 --user="root" --password="xxxxxxx" --charset="utf8mb4" --max-lag=10 --check-salve-lag='xxx.xxx.xxx.xxx' --recursion-method="hosts" --check-interval=2 D="testdb1",t="tb001" --alter="add column age int(4) default 0" --dry-run --print --execute
(4.2)常用参数
参数 说明
–host 数据库主机IP
–port=3306 端口号
–user=“root” 登录用户
–password 登录密码(明文)
–ask-pass 手动输入(密文)
–charset=“utf8mb4” 指定字符集为UTF8mb4
–max-lag=10 默认10s,检查slave延迟的值,超过10秒则暂停复制数据
–check-salve-lag= 指定一个从库的DSN连接地址,如果从库超过–max-lag参数设置的值,就会暂停操作
–recursion-method=“hosts” 默认是show processlist,发现从的方法,也可以是host
–check-interval –max-lag检查的睡眠时间,默认是1
D 指定数据库名
t 指定表名
–alter= 结构变更语句,不需要 ALTER TABLE关键字。与原始ddl一样可以指定多个更改,用逗号分隔
–dry-run 只进行模拟测试
–print 输出结果
–execute 确定修改表
【最佳实践】我的使用
注意,如果有从库的话,可以主从
(0)忽略一些检查
很多时候老是要我检查 很烦的;
#(1)添加唯一索引时,忽略检查被添加列中数据是否值是唯一: --nocheck-unique-key-change #(2)删除主键时,忽略检查是否有其他唯一索引级键(唯一key是为了保证delete触发器可以删掉对应行)
--no-check-alter
#(3)当有复制过滤时,pt-online-schema-change会不让使用,可以选择忽略
--no-check-replication-filters
(1)修改主键
-- (1 )tea_prop_rich_log: 原主键(logid) 修改主键为(logid,logtime) -- 分区列: logtime (datetime) pt-online-schema-change --host="localhost" --port='3306' --user="root" --password="xx" D="test1",t="tea_prop_rich_log" --alter="drop primary key,add primary key (logid,logtime)" --no-check-alter --nocheck-unique-key-change --execute
(2)添加索引
nohup pt-online-schema-change --host="localhost" --port='3306' --user="root" --password="xx" D="weixin_agent",t="agent_money_stock_hourly" --alter="add unique index uix_bid(bid)" --no-check-alter --nocheck-unique-key-change --execute &
(3)现有表修改为分区表
pt-online-schema-change --host="localhost" --port='3306' --user="root" --password="xx" D="test1",t="tea_prop_rich_log" --alter="partition by range(to_days(logtime)) ( partition p202102 values less than (to_days('2021-03-01') ), partition p202103 values less than (to_days('2021-04-01') ), partition p202104 values less than (to_days('2021-05-01') ), partition p202105 values less than (to_days('2021-06-01') ), partition p202106 values less than (to_days('2021-07-01') ), partition p202107 values less than (to_days('2021-08-01') ), partition p202108 values less than (to_days('2021-09-01') ), partition p202109 values less than (to_days('2021-10-01') ), partition pmax values less than (maxvalue) );" --nocheck-unique-key-change --execute
原文链接:https://blog.csdn.net/g950904/article/details/108822529