mysql数据库千万级别数据的查询优化和分页测试
原文:http://blog.sina.com.cn/s/blog_438308750100im0b.html 我原来的公司是一家网络游戏公司,其中网站交易与游戏数据库结合通过ws实现的,但是交易记录存放在网站上,级别是千万级别的数据库是mysql数据库. 可能有人会问mysql是否支持千万级数据库,还有既然
原文:http://blog.sina.com.cn/s/blog_438308750100im0b.html
我原来的公司是一家网络游戏公司,其中网站交易与游戏数据库结合通过ws实现的,但是交易记录存放在网站上,级别是千万级别的数据库是mysql数据库.
可能有人会问mysql是否支持千万级数据库,还有既然已经到了这个数据量公司肯定不差,为什么要用mysql而不用oracle这里我做一下解答
1. mysql绝对支持千万级数据库是可以肯定的,
2. 为什么选择择mysql呢?
1> 第一也是最主要的一条是mysql他能做到。
2> 在第一点前提下以下的就不是太重要了,mysql相对操作简单,测试容易,配置优化也相对容易很多
3> 我们这里的数据仅仅是为了记录交易保证交易是被记录的,对于查询的还是相对少只有管理后台操作中需要对数据库进行查询
4> 数据结构简单,而且每条记录都非常小,因为查询速度不管和记录条数有关和数据文件大小也有直接关系.
5> 我们采用的是大小表的解决办法,每天大概需要插入数据库好几百万条,这里可能还是有人怀疑,其实没问题,如果批量插入我测试的在普通的pc机子上带该一个 线程并发我插入的是6千万条记录大概需要“JDBC插入6000W条数据用时:9999297ms”,小表保存最近插入的内容,把几天前的保存到大表中, 这里我说的就是大表大概6-7千万条数据;
带着这些疑问和求知欲望咱们来做一个测试,因为在那个时候我也不是dba不知道人家是怎么搞的能够做成这么大的数据量,我们平时叶总探讨一些相关的内容
1.mysql的数据查询,大小字段要分开,这个还是有必要的,除非一点就是你查询的都是索引内容而不是表内容,比如只查询id等等
2.查询速度和索引有很大关系也就是索引的大小直接影响你的查询效果,但是查询条件一定要建立索引,这点上注意的是索引字段不能太多,太多索引文件就会很大那样搜索只能变慢,
3.查询指定的记录最好通过Id进行in查询来获得真实的数据.其实不是最好而是必须,也就是你应该先查询出复合的ID列表,通过in查询来获得数据
我们来做一个测试ipdatas表:
CREATE TABLE `ipdatas` (
`id` INT(11) NOT NULL AUTO_INCREMENT,
`uid` INT(8) NOT NULL DEFAULT ‘0’,
`ipaddress` VARCHAR(50) NOT NULL,
`source` VARCHAR(255) DEFAULT NULL,
`track` VARCHAR(255) DEFAULT NULL,
`entrance` VARCHAR(255) DEFAULT NULL,
`createdtime` DATETIME NOT NULL DEFAULT ‘0000-00-00 00:00:00′,
`createddate` DATE NOT NULL DEFAULT ‘0000-00-00′,
PRIMARY KEY (`id`),
KEY `uid` (`uid`)
) ENGINE=MYISAM AUTO_INCREMENT=67086110 DEFAULT CHARSET=utf8;
这是我们做的广告联盟的推广ip数据记录表,由于我也不是mysql的DBA所以这里咱们仅仅是测试
因为原来里面有大概7015291条数据
这里我们通过jdbc的batch插入6000万条数据到此表当中“JDBC插入6000W条数据用时:9999297ms”;
大概用了两个多小时,这里面我用的是batch大小大概在1w多每次提交,还有一点是每次提交的数据都很小,而且这里用的myisam数据表,因为我需要知道mysql数据库的大小以及索引数据的大小结果是
ipdatas.MYD 3.99 GB (4,288,979,008 字节)
ipdatas.MYI 1.28 GB (1,377,600,512 字节)
这里面我要说的是如果真的是大数据如果时间需要索引还是最好改成数字字段,索引的大小和查询速度都比时间字段可观。
步入正题:
1.全表搜索
返回结构是67015297条数据
SELECT COUNT(id) FROM ipdatas;
SELECT COUNT(uid) FROM ipdatas;
SELECT COUNT(*) FROM ipdatas;
首先这两个全表数据查询速度很快,mysql中包含数据字典应该保留了数据库中的最大条数
查询索引条件
SELECT COUNT(*) FROM ipdatas WHERE uid=1;?? 返回结果时间:2分31秒594
SELECT COUNT(id) FROM ipdatas WHERE uid=1;? 返回结果时间:1分29秒609
SELECT COUNT(uid) FROM ipdatas WHERE uid=1; 返回结果时间:2分41秒813
第二次查询都比较快因为mysql中是有缓存区的所以增大缓存区的大小可以解决很多查询的优化,真可谓缓存无处不在啊在程序开发中也是层层都是缓存
查询数据
第一条开始查询
SELECT * FROM ipdatas ORDER BY id DESC LIMIT 1,10 ; 31毫秒
SELECT * FROM ipdatas LIMIT 1,10 ; 15ms
第10000条开始查询
SELECT * FROM ipdatas ORDER BY id ASC LIMIT 10000,10 ; 266毫秒
SELECT * FROM ipdatas LIMIT 10000,10 ; 16毫秒
第500万条开始查询
SELECT * FROM ipdatas LIMIT 5000000,10 ;11.312秒
SELECT * FROM ipdatas ORDER BY id ASC LIMIT 5000000,10 ; 221.985秒
这两条返回结果完全一样,也就是mysql默认机制就是id正序然而时间却大相径庭
第5000万条开始查询
SELECT * FROM ipdatas LIMIT 60000000,10 ;66.563秒 (对比下面的测试)
SELECT * FROM ipdatas ORDER BY id ASC LIMIT 50000000,10; 1060.000秒
SELECT * FROM ipdatas ORDER BY id DESC LIMIT 17015307,10; 434.937秒
第三条和第二条结果一样只是排序的方式不同但是用时却相差不少,看来这点还是不如很多的商业数据库,像oracle和sqlserver等都是中间不成两边还是没问题,看来mysql是开始行越向后越慢,这里看来可以不排序的就不要排序了性能差距巨大,相差了20多倍
查询数据返回ID列表
第一条开始查
select id from ipdatas order by id asc limit 1,10; 31ms
SELECT id FROM ipdatas LIMIT 1,10 ; 0ms
第10000条开始
SELECT id FROM ipdatas ORDER BY id ASC LIMIT 10000,10; 68ms
select id from ipdatas limit 10000,10;0ms
第500万条开始查询
SELECT id FROM ipdatas LIMIT 5000000,10; 1.750s
SELECT id FROM ipdatas ORDER BY id ASC LIMIT 5000000,10;14.328s
第6000万条记录开始查询
SELECT id FROM ipdatas LIMIT 60000000,10; 116.406s
SELECT id FROM ipdatas ORDER BY id ASC LIMIT 60000000,10; 136.391s
select id from ipdatas limit 10000002,10; 29.032s
select id from ipdatas limit 20000002,10; 24.594s
select id from ipdatas limit 30000002,10; 24.812s
select id from ipdatas limit 40000002,10; 28.750s? 84.719s
select id from ipdatas limit 50000002,10; 30.797s? 108.042s
select id from ipdatas limit 60000002,10; 133.012s? 122.328s
select * from ipdatas limit 10000002,10; 27.328s
select * from ipdatas limit 20000002,10; 15.188s
select * from ipdatas limit 30000002,10; 45.218s
select * from ipdatas limit 40000002,10; 49.250s?? 50.531s
select * from ipdatas limit 50000002,10; 73.297s?? 56.781s
select * from ipdatas limit 60000002,10; 67.891s?? 75.141s
select id from ipdatas order by id asc limit 10000002,10; 29.438s
select id from ipdatas order by id asc limit 20000002,10; 24.719s
select id from ipdatas order by id asc limit 30000002,10; 25.969s
select id from ipdatas order by id asc limit 40000002,10; 29.860d
select id from ipdatas order by id asc limit 50000002,10; 32.844s
select id from ipdatas order by id asc limit 60000002,10; 34.047s
至于SELECT * ipdatas order by id asc 就不测试了 大概都在十几分钟左右
可见通过SELECT id 不带排序的情况下差距不太大,加了排序差距巨大
下面看看这条语句
SELECT * FROM ipdatas WHERE id IN (10000,100000,500000,1000000,5000000,10000000,2000000,30000000,40000000,50000000,60000000,67015297);
耗时0.094ms
可见in在id上面的查询可以忽略不计毕竟是6000多万条记录,所以为什么很多lucene或solr搜索都返回id进行数据库重新获得数据就是因为这 个,当然lucene/solr+mysql是一个不错的解决办法这个非常适合前端搜索技术,比如前端的分页搜索通过这个可以得到非常好的性能.还可以支 持很好的分组搜索结果集,然后通过id获得数据记录的真实数据来显示效果真的不错,别说是千万级别就是上亿也没有问题,真是吐血推荐啊.
上面的内容还没有进行有条件的查询仅仅是一些关于orderby和limit的测试,请关注我的下一篇文件对于条件查询的1亿数据检索测试
原文地址:mysql数据库千万级别数据的查询优化和分页测试, 感谢原作者分享。
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