Oracle编程艺术:深入理解数据库体系结构(第3版) 之 定制脚本

一、先到Github  Apress官网下载 本书开放源代码

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ZIP打包下载

二、安装定制脚本和环境表

1、创建BIG_TABLE

在全书的例子中，使用一个名为BIG_TABLE的表格，记录数在1-400万条之间，大小不定，为200MB-800MB，不过表结构和数据相同，都来源于ALL_OBJECTS表。

BIG_TABLE  创建SQL 脚本:

 

-- If you're using a container database, connect to your PDB and schema when running this.
-- If you're not using a container database, then just connect to your schema.

define numrows=10000000
drop table big_table purge;

create table big_table
as
select rownum id, OWNER, OBJECT_NAME, SUBOBJECT_NAME, OBJECT_ID,
DATA_OBJECT_ID, OBJECT_TYPE, CREATED, LAST_DDL_TIME, TIMESTAMP,
STATUS, TEMPORARY, GENERATED, SECONDARY, NAMESPACE, EDITION_NAME
  from all_objects
 where 1=0
/

alter table big_table nologging;

declare
  l_cnt number;
  l_rows number := &numrows;
begin
  insert /*+ append */
  into big_table
  select rownum id, OWNER, OBJECT_NAME, SUBOBJECT_NAME, OBJECT_ID,
  DATA_OBJECT_ID, OBJECT_TYPE, CREATED, LAST_DDL_TIME, TIMESTAMP,
  STATUS, TEMPORARY, GENERATED, SECONDARY, NAMESPACE, EDITION_NAME
  from all_objects
  where rownum <= &numrows;
  --
  l_cnt := sql%rowcount;
  commit;
  while (l_cnt < l_rows)
  loop
    insert /*+ APPEND */ into big_table
    select rownum+l_cnt,OWNER, OBJECT_NAME, SUBOBJECT_NAME, OBJECT_ID,
    DATA_OBJECT_ID, OBJECT_TYPE, CREATED, LAST_DDL_TIME, TIMESTAMP,
    STATUS, TEMPORARY, GENERATED, SECONDARY, NAMESPACE, EDITION_NAME
    from big_table a
    where rownum <= l_rows-l_cnt;
    l_cnt := l_cnt + sql%rowcount;
    commit;
  end loop;
end;
/

alter table big_table add constraint
big_table_pk primary key(id);

exec dbms_stats.gather_table_stats( user, 'BIG_TABLE', estimate_percent=> 1);

2、创建runstats

runstats脚本目的：

对做同一件事的两个不同方法进行比较，得出孰优孰劣的结果。

runststs工具主要测量三个要素

• 墙上时钟（wall clock) 或耗用时间（elapsed time)
• 系统统计结果，会并排地显示每个方法做某件事（如执行一个解析调用）的次数，并展示出二者之差
• 闩定（latch）这个是报告的关键输出

要使用runstats，需要能访问几个V$视图，并创建一个表来存储统计结果，还要创建runstats包。为此，需要访问4个V$表（就是那些神奇的动态性能表）：V$STATNAME、V$MYSTAT和V$LATCH和V$TIMER。这四个表其实是别名，真正对象的名称应为V_$STATNAME、V_$MYSTAT、  V_$LATCH、  V_$TIMER，并且都是在sys账户下。如果其他账户要访问这四张表， 需要进行授权。

创建脚本 runstats.sql    在Oracle11g中执行脚本，12c需注意CDB和PDB差别

-- Script name: runstats.sql
-- Define the PDB you want to connect to in your database.
-- If you're using a non-container database, then leave the PDB variable blank.
-- But you really should be using a container database going forward.

-- define PDB=PDB1

connect / as sysdba

-- alter session set container=&&PDB;

grant select on v_$statname to gyn;
grant select on v_$mystat to gyn;
grant select on v_$latch to gyn;
grant select on v_$timer to gyn;

-- conn gyn/gyn@&&PDB

conn gyn/gyn

drop table run_stats;
set echo on;

create or replace view stats
as select 'STAT...' || a.name name, b.value
from v$statname a, v$mystat b
where a.statistic# = b.statistic#
union all
select 'LATCH.' || name, gets
from v$latch
union all
select 'STAT...Elapsed Time', hsecs from v$timer;

create global temporary table run_stats
( runid varchar2(15),
  name varchar2(80),
  value int )
on commit preserve rows;

create or replace package runstats_pkg
as
procedure rs_start;
procedure rs_middle;
procedure rs_stop(p_difference_threshold in number default 0 );
end;
/

create or replace package body runstats_pkg
as

g_start number;
g_run1 number;
g_run2 number;

procedure rs_start
is
begin
  delete from run_stats;

  insert into run_stats
  select 'before', stats.* from stats;

  g_start := dbms_utility.get_cpu_time;
end;

procedure rs_middle
is
begin
  g_run1 := (dbms_utility.get_cpu_time-g_start);

  insert into run_stats
  select 'after 1', stats.* from stats;

  g_start := dbms_utility.get_cpu_time;
end;

procedure rs_stop(p_difference_threshold in number default 0)
is
begin
  g_run2 := (dbms_utility.get_cpu_time-g_start);

  dbms_output.put_line( 'Run1 ran in ' || g_run1 || ' cpu hsecs' );
  dbms_output.put_line( 'Run2 ran in ' || g_run2 || ' cpu hsecs' );

  if ( g_run2 <> 0 )
  then
    dbms_output.put_line
    ( 'run 1 ran in ' || round(g_run1/g_run2*100,2) ||
    '% of the time' );
  end if;
  dbms_output.put_line( chr(9) );

  insert into run_stats
  select 'after 2', stats.* from stats;

  dbms_output.put_line
  ( rpad( 'Name', 30 ) || lpad( 'Run1', 16 ) ||
  lpad( 'Run2', 16 ) || lpad( 'Diff', 16 ) );

  for x in
  ( select rpad( a.name, 30 ) ||
    to_char( b.value-a.value, '999,999,999,999' ) ||
    to_char( c.value-b.value, '999,999,999,999' ) ||
    to_char( ( (c.value-b.value)-(b.value-a.value)),
    '999,999,999,999' ) data
    from run_stats a, run_stats b, run_stats c
    where a.name = b.name
    and b.name = c.name
    and a.runid = 'before'
    and b.runid = 'after 1'
    and c.runid = 'after 2'

    and abs( (c.value-b.value) - (b.value-a.value) )
    > p_difference_threshold
    order by abs( (c.value-b.value)-(b.value-a.value))
  ) loop
  dbms_output.put_line( x.data );
  end loop;

  dbms_output.put_line( chr(9) );
  dbms_output.put_line
  ( 'Run1 latches total versus runs -- difference and pct' );
  dbms_output.put_line
  ( lpad( 'Run1', 14 ) || lpad( 'Run2', 19 ) ||
    lpad( 'Diff', 18 ) || lpad( 'Pct', 11 ) );

  for x in
  ( select to_char( run1, '9,999,999,999,999' ) ||
    to_char( run2, '9,999,999,999,999' ) ||
    to_char( diff, '9,999,999,999,999' ) ||
    to_char( round( run1/decode( run2, 0, to_number(0), run2) *100,2 ), '99,999.99' ) || '%' data
    from ( select sum(b.value-a.value) run1, sum(c.value-b.value) run2,
    sum( (c.value-b.value)-(b.value-a.value)) diff
    from run_stats a, run_stats b, run_stats c
    where a.name = b.name
    and b.name = c.name
    and a.runid = 'before'
    and b.runid = 'after 1'
    and c.runid = 'after 2'
    and a.name like 'LATCH%'
    )
  ) loop
  dbms_output.put_line( x.data );
  end loop;
end;

end;
/

 

 使用runstats.sql

依次运行以下SQL命令

 

-- Runstats example

define PDB=PDB1

conn eoda/foo@&&PDB

drop table t1 purge;
drop table t2 purge;

create table t1
  as
  select * from big_table
  where 1=0;

create table t2
  as
  select * from big_table
  where 1=0;

exec runstats_pkg.rs_start;

insert into t1
  select *
  from big_table
  where rownum <= 1000000;

commit;

exec runstats_pkg.rs_middle;

begin
          for x in ( select *
                       from big_table
                      where rownum <= 1000000 )
          loop
                  insert into t2 values X;
          end loop;
          commit;
  end;
/

set serverout on;
exec runstats_pkg.rs_stop(1000000)

最后得到的结果如下：

3、mystat

Mystat.sql 和 Mystat2.sql 用于展示某些Oracle "统计结果" 在完成操作之前和之后的变化情况。

Mystat.sql 先行执行，获得统计结果的开始值：

 

set echo off
set verify off
column value new_val V
define S="&1"

set autotrace off
select a.name, b.value
from v$statname a, v$mystat b
where a.statistic# = b.statistic#
and lower(a.name) = lower('&S')
/
set echo on

Mystat2.sql 用于报告差值（通过运行第一个脚本mystat.sql来填充&V，为此它使用了SQL*PLUS NEW_VAL特性，其中包含由上一个查询选择的最后一个value)

set echo off
set verify off
select a.name, b.value V, to_char(b.value-&V,'999,999,999,999') diff
from v$statname a, v$mystat b
where a.statistic# = b.statistic#
and lower(a.name) = lower('&S')
/
set echo on

例如：要查看某个UPDATE更新操作生成的redo数量，可以使用以下命令：

测试语句SQL

 

-- Mystat example

define PDB=PDB1

conn eoda/foo@&&PDB

column name form a30

@mystat "redo size"

update big_table set owner = lower(owner) where rownum <= 1000;

commit;

@mystat2

运行结果

测试结果表明，1000行记录的UPDATE更新操作会生成96896字节的Redo（Oracle 11g）。

4、SHOW_SPACE

SHOW_SPACE存储过程用于打印数据库端的空间利用率信息。

SQL代码如下：

 

create or replace procedure show_space
( p_segname in varchar2,
  p_owner   in varchar2 default user,
  p_type    in varchar2 default 'TABLE',
  p_partition in varchar2 default NULL )
-- this procedure uses authid current user so it can query DBA_*
-- views using privileges from a ROLE and so it can be installed
-- once per database, instead of once per user that wants to use it
authid current_user
as
    l_free_blks                 number;
    l_total_blocks              number;
    l_total_bytes               number;
    l_unused_blocks             number;
    l_unused_bytes              number;
    l_LastUsedExtFileId         number;
    l_LastUsedExtBlockId        number;
    l_LAST_USED_BLOCK           number;
    l_segment_space_mgmt        varchar2(255);
    l_unformatted_blocks number;
    l_unformatted_bytes number;
    l_fs1_blocks number; l_fs1_bytes number;
    l_fs2_blocks number; l_fs2_bytes number;
    l_fs3_blocks number; l_fs3_bytes number;
    l_fs4_blocks number; l_fs4_bytes number;
    l_full_blocks number; l_full_bytes number;

    -- inline procedure to print out numbers nicely formatted
    -- with a simple label
    procedure p( p_label in varchar2, p_num in number )
    is
    begin
        dbms_output.put_line( rpad(p_label,40,'.') ||
                              to_char(p_num,'999,999,999,999') );
    end;
begin
   -- this query is executed dynamically in order to allow this procedure
   -- to be created by a user who has access to DBA_SEGMENTS/TABLESPACES
   -- via a role as is customary.
   -- NOTE: at runtime, the invoker MUST have access to these two
   -- views!
   -- this query determines if the object is an ASSM object or not
   begin
      execute immediate
          'select ts.segment_space_management
             from dba_segments seg, dba_tablespaces ts
            where seg.segment_name      = :p_segname
              and (:p_partition is null or
                  seg.partition_name = :p_partition)
              and seg.owner = :p_owner
              and seg.tablespace_name = ts.tablespace_name'
             into l_segment_space_mgmt
            using p_segname, p_partition, p_partition, p_owner;
   exception
       when too_many_rows then
          dbms_output.put_line
          ( 'This must be a partitioned table, use p_partition => ');
          return;
   end;


   -- if the object is in an ASSM tablespace, we must use this API
   -- call to get space information, else we use the FREE_BLOCKS
   -- API for the user managed segments
   if l_segment_space_mgmt = 'AUTO'
   then
     dbms_space.space_usage
     ( p_owner, p_segname, p_type, l_unformatted_blocks,
       l_unformatted_bytes, l_fs1_blocks, l_fs1_bytes,
       l_fs2_blocks, l_fs2_bytes, l_fs3_blocks, l_fs3_bytes,
       l_fs4_blocks, l_fs4_bytes, l_full_blocks, l_full_bytes, p_partition);

     p( 'Unformatted Blocks ', l_unformatted_blocks );
     p( 'FS1 Blocks (0-25)  ', l_fs1_blocks );
     p( 'FS2 Blocks (25-50) ', l_fs2_blocks );
     p( 'FS3 Blocks (50-75) ', l_fs3_blocks );
     p( 'FS4 Blocks (75-100)', l_fs4_blocks );
     p( 'Full Blocks        ', l_full_blocks );
  else
     dbms_space.free_blocks(
       segment_owner     => p_owner,
       segment_name      => p_segname,
       segment_type      => p_type,
       freelist_group_id => 0,
       free_blks         => l_free_blks);

     p( 'Free Blocks', l_free_blks );
  end if;

  -- and then the unused space API call to get the rest of the
  -- information
  dbms_space.unused_space
  ( segment_owner     => p_owner,
    segment_name      => p_segname,
    segment_type      => p_type,
    partition_name    => p_partition,
    total_blocks      => l_total_blocks,
    total_bytes       => l_total_bytes,
    unused_blocks     => l_unused_blocks,
    unused_bytes      => l_unused_bytes,
    LAST_USED_EXTENT_FILE_ID => l_LastUsedExtFileId,
    LAST_USED_EXTENT_BLOCK_ID => l_LastUsedExtBlockId,
    LAST_USED_BLOCK => l_LAST_USED_BLOCK );

    p( 'Total Blocks', l_total_blocks );
    p( 'Total Bytes', l_total_bytes );
    p( 'Total MBytes', trunc(l_total_bytes/1024/1024) );
    p( 'Unused Blocks', l_unused_blocks );
    p( 'Unused Bytes', l_unused_bytes );
    p( 'Last Used Ext FileId', l_LastUsedExtFileId );
    p( 'Last Used Ext BlockId', l_LastUsedExtBlockId );
    p( 'Last Used Block', l_LAST_USED_BLOCK );
end;
/

运行创建脚本；

存储过程接口如下：

P_SEGNAME    段名(例如，表或者索引名)

P_OWNER    默认为当前用户，不过也可以使用这个例程查看另外某个模式

P_TYPE    默认为TABLE，表示查看哪种类型的对象(段)

P_PARTITION    显示分区对象的空间时所用的分区名。

SHOW_SPACE 一次只显示一个分区的空间利用率。

使用方法：

exec show_space('BIG_TABLE');

运行结果如下：

 --报告中的各项结果解读如下：

Unformatted Blocks：为表分配的位于高水位线之下但是未用的块数。把未格式化和已格式化但是未使用的块加一起。就是已为表分配但从未用于保存的ASSM对象数据的总块。

FS1 Blocks~FS4 Blocks：包含数据的已格式化块。项名后的数字表示各块的“空闲度‘，例如（0~25）是指空闲度为0~25%的块数。

Full Blocks：已满的块数，不能再向这些块插入数据，新插入的数据将不会写到这些块上。

Total Blocks、Total Bytes、Total MBytes：为所查看的段分配的总空间量。单位分别是数据库块（Blocks），字节（Bytes），兆字节（MB）。

Unused Blocks、Unused Bytes：表示未用空间所占的比例。这些块已经分配给所查看的段。但目前位于高水位线之上。

Last Used Ext FileId：包含最后一个块（其中包含数据）的文件的文件ID。

Last Used Ext BlockId：最后一个区段开始处的块ID,这是最后使用的文件中的块的ID.也就是Last Used Ext FileId  ID号中的块ID。

Last Used Block：最后区段中，最后一个块的偏移量。

END.