美文网首页数据库
Oracle体系结构学习笔记

Oracle体系结构学习笔记

作者: smileNicky | 来源:发表于2019-05-08 15:31 被阅读3次

    Oracle体系结构由实例和一组数据文件组成,实例由SGA内存区,SGA意思是共享内存区,由share pool(共享池)、data buffer(数据缓冲区)、log buffer(日志缓冲区)组成


    SGA内存区的share pool是解析SQL并保存执行计划的,然后SQL根据执行计划获取数据时先看data buffer里是否有数据,没数据才从磁盘读,然后还是读到data buffer里,下次就直接读data buffer的,当SQL更新时,data buffer的数据就必须写入磁盘备份,为了保护这些数据,才有log buffer,这就是大概的原理简介

    系统结构关系图如图,图来自《收获,不止SQL优化》一书:

    下面介绍共享池、数据缓冲、日志缓冲方面调优的例子

    共享池相关例子

    未使用使用绑定变量的情况,进行一下批量写数据,在登录系统,经常用的sql是select * from sys_users where username='admin'或者什么什么的,假如有很多用户登录,就需要执行很多次这样类似的sql,能不能用一条SQL代表?意思是不需要Oracle优化器每次都解析sql获取执行计划,对于这种类似的sql是没必要的,Oracle提供了绑定变量的方法,可以用于调优sql,然后一堆sql就可以用

    select * from sys_users where username=:x
    

    这里用一个变量x表示,具体例子如下,

    新建一张表来测试

    create table t (x int);
    

    不使用绑定遍历,批量写数据

    begin 
        for i in 1 .. 1000
        loop
            execute immediate
            'insert into t values('|| i ||')';
            commit;
        end loop;
    end;
    /
    

    输出

    已用时间: 00: 00: 00.80

    加上绑定遍历,绑定变量是用:x的形式

    begin 
        for i in 1 .. 100
        loop
            execute immediate
            'insert into t values( :x )' using i;
        commit;
        end loop;
    end;
    /
    

    已用时间: 00: 00: 00.05

    数据缓冲相关例子
    这里介绍和数据缓存相关例子

    (1) 清解析缓存

    //创建一个表来测试
    SQL> create table t as select * from dba_objects;
    表已创建。
    //设置打印行数
    SQL> set linesize 1000
    //设置执行计划开启
    SQL> set autotrace on
    //打印出时间
    SQL> set timing on
    //查询一下数据
    SQL> select count(1) from t;
    
      COUNT(1)
    ----------
         72043
    
    已用时间:  00: 00: 00.10
    
    //清一下缓冲区缓存(ps:这个sql不能随便在生产环境执行)
    SQL> alter system flush buffer_cache;
    系统已更改。
    已用时间:  00: 00: 00.08
    
    //清一下共享池缓存(ps:这个sql不能随便在生产环境执行)
    SQL> alter system flush shared_pool;
    
    //再次查询,发现查询快了
    SQL> select count(1) from t;
    
      COUNT(1)
    ----------
         72043
    
    已用时间:  00: 00: 00.12
    
    SQL>
    

    日志缓冲相关例子

    这里说明一下,日志关闭是可以提供性能的,不过在生生产环境还是不能随便用,只能说是一些特定创建,SQL如:

    alter table [表名] nologging;
    

    调优拓展知识
    这些是看《收获,不止SQL优化》一书的小记

    (1) 批量写数据事务问题
    对于循环批量事务提交的问题,commit放在循环内和放在循环外的区别,

    放在循环内,每次执行就提交一次事务,这种时间相对比较少的

    begin 
        for i in 1 .. 1000
        loop
            execute immediate
            'insert into t values('|| i ||')';
            commit;
        end loop;
    end;
    

    放在循环外,sql循环成功,再提交一次事务,这种时间相对比较多一点

    begin 
        for i in 1 .. 1000
        loop
            execute immediate
            'insert into t values('|| i ||')';
        end loop;
        commit;
    end;
    

    《收获,不止SQL优化》一书提供的脚本,用于查看逻辑读、解析、事务数等等情况:

    select s.snap_date,
           decode(s.redosize, null, '--shutdown or end--', s.currtime) "TIME",
           to_char(round(s.seconds / 60, 2)) "elapse(min)",
           round(t.db_time / 1000000 / 60, 2) "DB time(min)",
           s.redosize redo,
           round(s.redosize / s.seconds, 2) "redo/s",
           s.logicalreads logical,
           round(s.logicalreads / s.seconds, 2) "logical/s",
           physicalreads physical,
           round(s.physicalreads / s.seconds, 2) "phy/s",
           s.executes execs,
           round(s.executes / s.seconds, 2) "execs/s",
           s.parse,
           round(s.parse / s.seconds, 2) "parse/s",
           s.hardparse,
           round(s.hardparse / s.seconds, 2) "hardparse/s",
           s.transactions trans,
           round(s.transactions / s.seconds, 2) "trans/s"
      from (select curr_redo - last_redo redosize,
                   curr_logicalreads - last_logicalreads logicalreads,
                   curr_physicalreads - last_physicalreads physicalreads,
                   curr_executes - last_executes executes,
                   curr_parse - last_parse parse,
                   curr_hardparse - last_hardparse hardparse,
                   curr_transactions - last_transactions transactions,
                   round(((currtime + 0) - (lasttime + 0)) * 3600 * 24, 0) seconds,
                   to_char(currtime, 'yy/mm/dd') snap_date,
                   to_char(currtime, 'hh24:mi') currtime,
                   currsnap_id endsnap_id,
                   to_char(startup_time, 'yyyy-mm-dd hh24:mi:ss') startup_time
              from (select a.redo last_redo,
                           a.logicalreads last_logicalreads,
                           a.physicalreads last_physicalreads,
                           a.executes last_executes,
                           a.parse last_parse,
                           a.hardparse last_hardparse,
                           a.transactions last_transactions,
                           lead(a.redo, 1, null) over(partition by b.startup_time order by b.end_interval_time) curr_redo,
                           lead(a.logicalreads, 1, null) over(partition by b.startup_time order by b.end_interval_time) curr_logicalreads,
                           lead(a.physicalreads, 1, null) over(partition by b.startup_time order by b.end_interval_time) curr_physicalreads,
                           lead(a.executes, 1, null) over(partition by b.startup_time order by b.end_interval_time) curr_executes,
                           lead(a.parse, 1, null) over(partition by b.startup_time order by b.end_interval_time) curr_parse,
                           lead(a.hardparse, 1, null) over(partition by b.startup_time order by b.end_interval_time) curr_hardparse,
                           lead(a.transactions, 1, null) over(partition by b.startup_time order by b.end_interval_time) curr_transactions,
                           b.end_interval_time lasttime,
                           lead(b.end_interval_time, 1, null) over(partition by b.startup_time order by b.end_interval_time) currtime,
                           lead(b.snap_id, 1, null) over(partition by b.startup_time order by b.end_interval_time) currsnap_id,
                           b.startup_time
                      from (select snap_id,
                                   dbid,
                                   instance_number,
                                   sum(decode(stat_name, 'redo size', value, 0)) redo,
                                   sum(decode(stat_name,
                                              'session logical reads',
                                              value,
                                              0)) logicalreads,
                                   sum(decode(stat_name,
                                              'physical reads',
                                              value,
                                              0)) physicalreads,
                                   sum(decode(stat_name, 'execute count', value, 0)) executes,
                                   sum(decode(stat_name,
                                              'parse count (total)',
                                              value,
                                              0)) parse,
                                   sum(decode(stat_name,
                                              'parse count (hard)',
                                              value,
                                              0)) hardparse,
                                   sum(decode(stat_name,
                                              'user rollbacks',
                                              value,
                                              'user commits',
                                              value,
                                              0)) transactions
                              from dba_hist_sysstat
                             where stat_name in
                                   ('redo size',
                                    'session logical reads',
                                    'physical reads',
                                    'execute count',
                                    'user rollbacks',
                                    'user commits',
                                    'parse count (hard)',
                                    'parse count (total)')
                             group by snap_id, dbid, instance_number) a,
                           dba_hist_snapshot b
                     where a.snap_id = b.snap_id
                       and a.dbid = b.dbid
                       and a.instance_number = b.instance_number
                     order by end_interval_time)) s,
           (select lead(a.value, 1, null) over(partition by b.startup_time order by b.end_interval_time) - a.value db_time,
                   lead(b.snap_id, 1, null) over(partition by b.startup_time order by b.end_interval_time) endsnap_id
              from dba_hist_sys_time_model a, dba_hist_snapshot b
             where a.snap_id = b.snap_id
               and a.dbid = b.dbid
               and a.instance_number = b.instance_number
               and a.stat_name = 'DB time') t
     where s.endsnap_id = t.endsnap_id
     order by s.snap_date, time desc;
    
    

    相关文章

      网友评论

        本文标题:Oracle体系结构学习笔记

        本文链接:https://www.haomeiwen.com/subject/wzzmoqtx.html