Oracle11g温习-第一章:Oracle 体系架构

Posted ORACLE-fans

tags:

篇首语:本文由小常识网(cha138.com)小编为大家整理,主要介绍了Oracle11g温习-第一章:Oracle 体系架构相关的知识,希望对你有一定的参考价值。

2013年4月27日 星期六

10:20

 

1oracle 网络架构及应用环境

 

1、 ORACLE 实例——包括内存结构与后台进程

2、 ORACLE 数据库——物理操作系统文件的集合

3、 了解内存结构的组成

4、 了解后台进程的作用

5、 了解数据库的物理结构

6、 了解数据库的逻辑结构

2oracle 体系结构

 

 

1oracle server database + instance

2databasedata file control file redolog file

3instance(实例):access a database,用实例来访问数据库,一个数据库一次只能打开一个实例,实例由sga和后台进程组成

——oracle memory: sga + pga

 

4instance sga + backgroud process

5sga组成:sga 在一个instance只有一个sgasga所有的session共享,随着instance启动而分配,instance down sga被释放。

 

  --------查看OS分配给oracle的内存------------------------------------------------------

 

  [oracle@work oradata]$ ipcs

 

------ Shared Memory Segments --------

key        shmid      owner      perms      bytes      nattch     status     

0x995eb2e8 65537      oracle    640        379584512  18                     

 

------ Semaphore Arrays --------

key        semid      owner      perms      nsems    

0xbe3edae0 98304      oracle    640        44       

 

------ Message Queues --------

key        msqid      owner      perms      used-bytes   messages   

 

[oracle@work oradata]$ ipcs -m

 

------ Shared Memory Segments --------

key        shmid      owner      perms      bytes      nattch     status     

0x995eb2e8 65537      oracle    640        379584512  18           

  

3. 内存自动管理:(Oracle Automatic Shared Memory Management -ASMM)

 

          sga_max_size

          sga_target: share pool data bufferlarge pooljava poolstream pool【自动管理这5个池的内存大小】

        sga_target <= sga_max_size,大于0就等于启动ASMM

          granules(颗粒):组成oracle内存的最小单位

                            sga_max_size <1g ,4m

                             sga_max_size >1g  ,16m

 

        -------查看内存颗粒

       

SYS @ prod  > select name ,bytes/1024/1024 "Size(M)" from v$sgainfo;         【查看内存颗粒】                                                                   

 

NAME                                Size(M)

-------------------------------- ----------

Fixed SGA Size                   1.16238022

Redo Buffers                      2.8359375

Buffer Cache Size                        80

Shared Pool Size                         60

Large Pool Size                           0

Java Pool Size                              24

Streams Pool Size                         0

Granule Size                                  4

Maximum SGA Size                        244

Startup overhead in Shared Pool          28

Free SGA Memory Available                76

 

  6share pool

      sql 语句的执行过程:

          1)parse (语法分析、语义分析) 

          2)execute (建立计划,并执行)           (sql硬解析从头开始,软解析从执行计划开始)     

          3)fetch 返回结果

 

 

      library cache:存放最近使用的sql和plsql 代码【库缓存,减少硬解析的次数】

      dictionary  cache: 存放数据字典信息

     

  SYS @ prod >  SELECT shared_pool_size_for_estimate "SP", estd_lc_size "EL", estd_lc_memory_objects "ELM",estd_lc_time_saved "ELT", estd_lc_time_saved_factor as "ELTS",estd_lc_memory_object_hits as "ELMO"  from  v$shared_pool_advice;                                                                           

 

        SP         EL        ELM        ELT       ELTS       ELMO

---------- ---------- ---------- ---------- ---------- ----------

        60         17       2465        514          1      35837

        76         32       3921        514          1      36029

        92         47       5292        514          1      36108

       108         49       5718        514          1      36108

       124         49       5718        514          1      36108

       140         49       5718        514          1      36108

       156         49       5718        514          1      36108

       172         49       5718        514          1      36108

       188         49       5718        514          1      36108

       204         49       5718        514          1      36108

       220         49       5718        514          1      36108

       236         49       5718        514          1      36108

       252         49       5718        514          1      36108

       268         49       5718        514          1      36108

       284         49       5718        514          1      36108

第一列表示Oracle所估计的shared pool的尺寸值,其他列表示在该估计的shared pool大小下所表现出来的指标值,具体含义可以参见Oracle的联机帮助。我们主要关注estd_lc_time_saved_factor列的值,当该列值为1时,表示再增加shared pool的大小对性能的提高没有意义。

 

 

  7sga_target:  sga内存分配自动管理(ASMM)

      sga_target =0 关闭ASMM,>0 启动内存自动管理(可以对share pool、data buffer、large pool、java pool 、stream pool 实现自动管理)

      sga_target<= sga_max_size

 

  8 data buffer:存放从datafile 里读出的数据块的镜像

       db_cache_size   --------指定default cache大小-----LRU 默认数据块放到default cache

       db_keep_cache_size      keep  存放经常使用小表和索引等

       db_recycle_cache_size   回收  存放偶尔做全表扫描的表的数据块

      

       SYS @ prod > alter system set db_recycle_cache_size =12m;    【设置数据循环缓存的大小,大于零启动该缓存】                                                                          

               SYS @ prod> conn scott/tiger                                                                                                           

               SCOTT @ prod  > alter table emp storage ( buffer_pool recycle);  【将emp表的数据缓存设置为循环模式】                                                                          

               SCOTT @ prod  > create index emp_ename_id on emp(ename) storage (buffer_pool keep); 【将视图设置的数据缓存设置为keep模式】                                                  

               SCOTT @ prod  > desc user_segments;                                                                                                        

 Name                                                              Null?    Type

 ----------------------------------------------------------------- -------- --------------------------------------------

 SEGMENT_NAME                                                               VARCHAR2(81)

 PARTITION_NAME                                                             VARCHAR2(30)

 SEGMENT_TYPE                                                               VARCHAR2(18)

 TABLESPACE_NAME                                                            VARCHAR2(30)

 BYTES                                                                      NUMBER

 BLOCKS                                                                     NUMBER

 EXTENTS                                                                    NUMBER

 INITIAL_EXTENT                                                             NUMBER

 NEXT_EXTENT                                                                NUMBER

 MIN_EXTENTS                                                                NUMBER

 MAX_EXTENTS                                                                NUMBER

 PCT_INCREASE                                                               NUMBER

 FREELISTS                                                                  NUMBER

 FREELIST_GROUPS                                                            NUMBER

 BUFFER_POOL                                                                VARCHAR2(7)

 

SCOTT @ cuug > select segment_name,BUFFER_POOL from user_segments                                                                        

where segment_name=\'EMP\';                                                                                                

 

SEGMENT_NAME                                                                      BUFFER_

--------------------------------------------------------------------------------- -------

EMP1                                                                              DEFAULT

 

SCOTT @ cuug > select segment_name,BUFFER_POOL from user_segments                                                                        

   where segment_name=\'EMP_ENAME_ID\';                                                                                       

 

SEGMENT_NAME                                                                      BUFFER_

--------------------------------------------------------------------------------- -------

EMP1_ENAME_ID                                                                     KEEP

 

 

  9 log buffer存放redo entries ,用于recover  “先记后写”

  在设置日志缓冲区时,可以参考下面这个建议的公式来计算:1.5×(平均每个事务所产生的重做记录大小×每秒提交的事务数量)

 

首先先找到总事务量是多少:

 

SYS @ cuug >select a.value as trancount from v$sysstat a,v$statname b   where a.statistic# = b.statistic# and b.name = \'user commits\';

 

 TRANCOUNT

----------

       409 

 

然后,找到系统总共的运行时间:

 

SYS @ cuug >select trunc(sysdate - startup_time)*24*60*60 as  seconds from v$instance;

 

   SECONDS

----------

         0 

 

第三,找到产生的所有重做记录大小:

SYS @ cuug > select value as redoblocks from v$sysstat where name =  \'redo blocks written\';

 

REDOBLOCKS

----------

      4108 

 

最后,我们可以分别计算公式中的值:平均每个事务所产生的重做记录大小= redoblocks/trancount;每秒提交的事务数量=trancount/seconds。这样,最后所建议的日志缓冲区的大小可以写为:1.5×(redoblocks/trancount)×(trancount/seconds)。

 

10 large pool做批处理、备份恢复、用share server模式【不使用URL队列】

11 java pooljava 代码的解析

12pga : program global area

 

 随着server process分配给每一个session,随着server process终止,而被释放,独立非共享存放用户游标、变量、控制信息数据排序、存放hash值

 

        workarea_size_policy   =auto ;实现pga 的自动管理

 

              【11g中SGA+PGA 通过memory_target实现集中自动管理,10g的分开管理】

              pga_aggregate_target   >0 

              hash_area_size

              sort_area_size  

 

 

 13) process【进程】: user process server process background process

 

      user process:客户端请求

      server process:服务端进程

      backgroud process : 查看 ps  、v$process 、v$bgprocess

     

----------查看后台进程

[oracle@oracle ~]$ ps -ef |grep ora_|grep -v grep

 

oracle    7618     1  0 08:33 ?        00:00:01 ora_pmon_lx02

oracle    7620     1  0 08:33 ?        00:00:00 ora_psp0_lx02

oracle    7622     1  0 08:33 ?        00:00:00 ora_mman_lx02

oracle    7624     1  0 08:33 ?        00:00:01 ora_dbw0_lx02

oracle    7626     1  0 08:33 ?        00:00:01 ora_lgwr_lx02

oracle    7628     1  0 08:33 ?        00:00:05 ora_ckpt_lx02

oracle    7630     1  0 08:33 ?        00:00:02 ora_smon_lx02

oracle    7632     1  0 08:33 ?        00:00:00 ora_reco_lx02

oracle    7634     1  0 08:33 ?        00:00:04 ora_mmon_lx02

oracle    7636     1  0 08:33 ?        00:00:03 ora_mmnl_lx02

oracle    7640     1  0 08:34 ?        00:00:00 ora_arc0_lx02

oracle    7642     1  0 08:34 ?        00:00:00 ora_arc1_lx02

oracle    7646     1  0 08:34 ?        00:00:00 ora_qmnc_lx02

oracle    7652     1  0 08:34 ?        00:00:00 ora_q000_lx02

oracle    7654     1  0 08:34 ?        00:00:00 ora_q001_lx02

 

 

SYS @ cuug > select a.pid,a.spid,b.name,b.description from v$process a,v$bgprocess b   where a.addr=b.paddr and b.paddr<>\'00\';

 

       PID SPID         NAME                                               DESCRIPTION

---------- ------------ -------------------------------------------------- --------------------------------------------------

         2 7618         PMON                                               process cleanup

         3 7620         PSP0                                               process spawner 0

         4 7622         MMAN                                               Memory Manager

         5 7624         DBW0                                               db writer process 0

         6 7626         LGWR                                               Redo etc.

         7 7628         CKPT                                               checkpoint

         8 7630         SMON                                               System Monitor Process

         9 7632         RECO                                               distributed recovery

        10 7634         MMON                                               Manageability Monitor Process

        11 7636         MMNL    &nb

以上是关于Oracle11g温习-第一章:Oracle 体系架构的主要内容,如果未能解决你的问题,请参考以下文章

Oracle11g温习-第十一章:管理undo

第一章 Oracle 11g 数据库系统 (2018.3.16)

第一章 Oracle 11g 数据库系统 (2018.3.16)

Oracle11g温习-第十章:存储架构

Oracle11g温习-第十七章:权限管理

Oracle11g温习-第十八章:role管理

(c)2006-2024 SYSTEM All Rights Reserved IT常识