我在一家公司工作,我们使用大量的Oracle数据库,这些数据库由我们的内部软件使用。随着软件的更改,数据库会更新,这些更新将放入PL / SQL脚本中。我们的客户仍在运行我们软件的旧版本,因此拥有我们数据库的“旧”版本。
现在,当我们升级客户端软件时,我们现在必须运行自客户端运行版本以来编写的所有脚本。有时这是很多不同的脚本,只需要手动操作它们需要花费很多工时。
我想知道是否有某种方法可以自动运行每个升级PL / SQL脚本?
编写一个可以执行数据库脚本的小程序是否是一个可行的选择?
运行脚本时还会出现错误弹出的问题,当自动化处理脚本时会出现什么问题?也许写入日志文件。
有关自动运行这些脚本的任何输入都会受到赞赏吗?
答案 0 :(得分:2)
SQL * Plus脚本可以调用其他脚本。
例如,SQL * Plus脚本如:
@@foo.sql
@@bar.sql
@@baz.sql
将从执行sqlplus的目录执行foo.sql,bar.sql和baz.sql all - 至少在* nix中。在Windows上,它往往会查看$ ORACLE_HOME / bin,但我很确定通过SQLPATH环境变量可以在两个平台上控制行为。当然,您可以使用要执行的环境变量来定义完整路径,例如:
@@$MY_APP_UPGRADE_DIR/foo.sql
@@$MY_APP_UPGRADE_DIR/bar.sql
@@$MY_APP_UPGRADE_DIR/baz.sql
当然,另一方面,如果脚本是为* nix构建的,那么由于/ v \问题,它无法在Windows上运行。但这不是一个简单的修复,特别是在* {nix,其中sed可以处理它。
最初错过了错误评论:
SET ECHO ON
SPOOL $MY_APP_UPGRADE_DIR/my_giant_log_file
WHENEVER SQLERROR EXIT SQL.CODE ROLLBACK;
将日志文件放在指定的目录中,并在升级脚本引发任何SQL错误时弹出。
答案 1 :(得分:0)
您没有指定操作系统,但对于Unix,我会设置.sh脚本。
它可能看起来像这样:
$ UID = 'myuid' $ PWD = '密码'
sqlplus $ UID / $ PWD @ SIDNAME @ pl_sql_script1.sql
sqlplus $ UID / $ PWD @ SIDNAME @ pl_sql_script2.sql
如果要调用存储的PL / SQL过程,则应创建一个包含以下行的脚本文件(.sql):execute owner.stored_procedure
答案 2 :(得分:-1)
user:
-----
set linesize 100
set feedback off
set verify off
set pagesize 66
set wrap off
set pages 50
set lines 131
prompt
prompt Status of top active users by CPU
prompt
select to_char(sysdate,'YY-MM-DD:HH24-MI-SS') stime from dual;
column u_name format a8
column Osuser format a8
column Orauser format a8
column Sid_sn# format a13 Heading "'SID,SNO#'"
column S_pid format a5
column C_pid format a5
column Server format a10
column client_program format a28
select s.osuser "Osuser",s.username "Orauser",''''||s.sid||','||s.serial#||'''' sid_sn#,
s.process C_pid,substr(p.spid,1,5) "S_pid", s.machine Server,
decode(instr(s.program,'@'), 0, s.program, nvl(substr(s.program,1,instr(s.program,'@')-1),p.program)) client_program,
l.value "CPU",m.value "READS",to_char(s.logon_time, 'YY-MM-DD:HH24:MI:SS') logon_time from
v$session s,v$process p, v$sesstat l, v$sesstat m
where s.paddr = p.addr
and l.sid=m.sid
and s.status='ACTIVE'
and s.sid=l.sid and l.statistic#=12
and (l.value > 0 or m.value > 0)
and m.statistic#=9
order by l.value
ams SPace:
----------
col path for a40
select NAME,STATE,TOTAL_MB,FREE_MB from v$ASM_DISKGROUP;
select GROUP_NUMBER,DISK_NUMBER,TOTAL_MB,FREE_MB,STATE,PATH,NAME from v$asm_disk;
Invalid object:
--------------
set lines 132
col object_name format a50
spool invalids.out
select owner,object_type,object_name,last_ddl_time from dba_objects where status='INVALID'
order by owner,object_type,object_name;
spool off
Locks:
------
set lines 132
column Session_ID format a15;
SELECT DECODE(request,0,'Holder: ','Waiter: ')||sid Session_ID,
id1 Lock_ID_1, id2 Lock_ID_2,
decode(lmode,1,'Null',2,'Row-S(SS)',3,'Row-X(SX)',4,'Share(S)',5,'S/Row-x(SSX)',6,'Exclusive(X)','None') Lock_Mode,
decode(request,1,'Null',2,'Row-S(SS)',3,'Row-X(SX)',4,'Share(S)',5,'S/Row-x(SSX)',6,'Exclusive(X)','None') Lock_Mode_Request,
decode(type,'TX','Transaction Enqueue(TX)','TM','DML Enqueue(TM)','UL','User Supplied(UL)') Type_of_Lock,
round(ctime/60,2) Time_Min
FROM V$LOCK
WHERE (id1, id2, type) IN
(SELECT id1, id2, type FROM V$LOCK WHERE request>0)
ORDER BY id1, request;
px waits:
----------
set lines 131
column sid format 9999
column event format a25
column p1text format a20
column p2text format a10
column p3text format a10
select sw.sid,event,p1text,p1,p2text,p2,p3text,p3,server_set
from v$session_wait sw, v$px_session ps
where ps.sid = sw.sid
order by qcsid,server_group,server_set,server#
px stats:
---------
set lines 131
column name format a26
break on name skip 1
compute sum of value on name
select /*+ ordered */ name,value,sid,serial#,qcsid,server_group,server_set,server#,degree,req_degree
from v$statname n, v$px_sesstat ps
where ps.statistic# = n.statistic#
and name in ('physical reads direct','session logical reads')
order by name,qcsid,server_group,server_set,server#
space_ts_report:
-----------------
set lines 120
set pages 60
ttitle center "Tablespace Space Usage Report" skip 2
break on report
compute sum of ddf_sum_megs on report
compute sum of dfs_sum_megs on report
compute avg of dfs_percent_free on report
column dfs_tablespace_name format a30 heading "Tablespace"
col ddf_sum_megs format 999,999,999.9 heading "MB Allocated"
col dfs_sum_megs format 999,999,999.9 heading "MB Free"
col dfs_percent_free format 999.9 heading "% Free"
col dfs_max_megs format 999,999,999.9 heading "MB Max Free"
col dfs_c_extents format 999,999,999,999 heading "# Free Extents"
col dfs_avg_megs format 999,999,999.9 heading "MB Avg Free"
spool /tmp/ts_space_report
select ddf_tablespace_name TABLESPACE,
ddf_sum_bytes/1024/1024 ddf_sum_megs,
nvl(dfs_sum_bytes,0)/1024/1024 dfs_sum_megs,
(nvl(dfs_sum_bytes,0)/ddf_sum_bytes) * 100 dfs_percent_free,
nvl(dfs_max_bytes,0)/1024/1024 dfs_max_megs,
nvl(dfs_cnt_extents,0) dfs_c_extents,
(nvl(dfs_sum_bytes,0)/dfs_cnt_extents)/1024/1024 dfs_avg_megs
from (
select tablespace_name dfs_tablespace_name,
sum(bytes) dfs_sum_bytes,
max(bytes) dfs_max_bytes,
count(*) dfs_cnt_extents
from dba_free_space
group by tablespace_name
union all
select tname dfs_tablespace_name,
nvl(tbytes,0) - nvl(ubytes,0) dfs_sum_bytes,
mblocks dfs_max_bytes,rcount dfs_cnt_extents
from
(select tablespace_name tname,sum(bytes) tbytes,count(*) rcount from dba_temp_files group by tablespace_name),
(select tablespace stname,sum(blocks)*8182 ubytes,max(blocks) mblocks from v$sort_usage group by tablespace)
where stname (+) = tname
),
(
select tablespace_name ddf_tablespace_name,
sum(bytes) ddf_sum_bytes
from dba_data_files
group by tablespace_name
union all
select tablespace_name ddf_tablespace_name,
sum(bytes) ddf_sum_bytes
from dba_temp_files
group by tablespace_name
)
where dfs_tablespace_name (+) = ddf_tablespace_name
order by dfs_percent_free desc;
lag
----
SELECT to_char(APPLIED_TIME,'dd/mm/yyyy hh24:mi:ss') "Standby Time",
to_char(READ_TIME,'dd/mm/yyyy hh24:mi:ss') "Recover time",
to_char(sysdate,'dd/mm/yyyy hh24:mi:ss') "Production Time",
trunc(((86400*(sysdate-APPLIED_TIME))/60/60/24))-(trunc((((86400*(sysdate-APPLIED_TIME))/60)/60/24)/30)) "Days",trunc(((86400*(sysdate-APPLIED_TIME))/60)/60)-24*(trunc((((86400*(sysdate-APPLIED_TIME))/60)/60)/24)) "Hrs",
trunc((86400*(sysdate-APPLIED_TIME))/60)-60*(trunc(((86400*(sysdate-APPLIED_TIME))/60)/60)) "Min",
trunc(86400*(sysdate-APPLIED_TIME))-60*(trunc((86400*(sysdate-APPLIED_TIME))/60)) "Sec"
FROM DBA_LOGSTDBY_PROGRESS;
current sql :
-------------
select sid, s.sql_id, s.sql_child_number, sql_fulltext
from v$session s, v$process p, v$logstdby l, v$sql a
where s.paddr=p.addr and p.spid=l.pid and s.sql_id=a.sql_id and s.sql_child_number=a.child_number;
select t.*
from v$session s, v$process p, v$logstdby l, v$sql a, table(DBMS_XPLAN.DISPLAY_CURSOR(a.sql_id, a.child_number, 'BASIC')) t
where s.paddr=p.addr and p.spid=l.pid and s.sql_id=a.sql_id and s.sql_child_number=a.child_number;
select sql_id, parse_calls, disk_reads, direct_writes, buffer_gets, rows_processed, fetches, executions, loads, version_count,
cpu_time, elapsed_time, sorts, sharable_mem, total_sharable_mem
from v$sqlstats where sql_id in (
select s.sql_id from v$session s, v$process p, v$logstdby l where s.paddr=p.addr and p.spid=l.pid);
Explain:
--------
REM
REM ident @(#) BU DBA Group - P2K: explain.sql 1.4 07/06/01 09:33:13
REM
REM File: explain.sql Release 1.4 06/01/07 09:33:13
REM This version checked out of SCCS on 07/06/01 at 09:33:13
REM Control: /opt/oracle/dba/SCCS/common/sql/s.explain.sql
REM -------------------------------------------------------------------------
REM *** Do not edit this file outside of SCCS control ***
REM
REM To get an editable copy of this file use the command: sccs edit explain.sql
REM Edit the file with your favourite editor.
REM When finished editing use the command: sccs delget explain.sql
REM -------------------------------------------------------------------------
REM
REM Author: Oracle 9.2 feature scripted by Muthu Chinnasamy
REM
REM Synopsis: Explain some arbitary SQL
REM
REM Syntax: @explain.sql SQLfilename
REM
REM Example:
REM 1. Logon to sqlplus
REM 2. Run the command
REM explain plan for "your SQL"
REM 3. @explain
REM
REM Assumptions: Requires $ORACLE_HOME/rdbms/admin/utlxplan.sql
REM
REM History: sccs prt explain.sql
REM
REM -- set error traps so that we can detect failure in the calling kshell
whenever sqlerror exit sql.sqlcode rollback
whenever oserror exit failure rollback
set lines 132 pages 2000
select * from table(dbms_xplan.display);
rollback;
REM spool off
REM exit
getsql
-------
set pages 100 lines 110 wrap on feed 0 termout on veri off head on
accept sessionid Prompt "Enter SID : "
column sid format 99999
column serial# format 99999
column program format a35
column ora_user format a10
column osuser format a10
column cproc format 99999
column sproc format 99999
set long 5000
select s.sid SID ,s.serial# serial#,s.program program, s.username ora_user ,s.osuser osuser,
s.process c_proc,s.sql_hash_value,p.spid s_proc,s.sql_id sqlid from v$session s,v$process p
where sid=&sessionid
and s.paddr=p.addr;
select t.sql_text from v$session s,v$sqltext t
where sid=&sessionid
and s.sql_hash_value = t.hash_value (+)
order by t.piece
;
sqlid:
------
set lines 250 pages 9999 veri off long 9999
col snap_time format a13
col agg_cpu format 999999.99
col agg_et format 999999.99
col to_from format a13
col ins format 99
col exec format 999,999,999
col bg format 999,999,999,999
col bg_exe format 999,999,999
col et_exe format 999,999.99
col cpu_exe format 999,999.99
col dr_exe format 999,999,999
col rows_proc format 9,999,999
col sql_id new_value sqlid
select sql_id,sql_text from dba_hist_sqltext where sql_id='&sql_id';
select
b.sql_id,
to_char(s.begin_interval_time,'YYYYMMDD::HH24') snap_time,
b.snap_id||'-'||b.snap_id to_from,
s.instance_number ins,
b.plan_hash_value plan_hash,
b.executions_delta exec,
b.buffer_gets_delta bg,
case b.executions_delta when 0 then 0 else (b.buffer_gets_delta / b.executions_delta) end bg_exe,
case b.executions_delta when 0 then 0 else (b.cpu_time_delta/1000000)/b.executions_delta end cpu_exe,
case b.executions_delta when 0 then 0 else (b.elapsed_time_delta/1000000)/b.executions_delta end et_exe,
case b.executions_delta when 0 then 0 else b.disk_reads_delta/b.executions_delta end dr_exe,
b.rows_processed_delta rows_proc
from
dba_hist_sqlstat b,
dba_hist_snapshot s
where
b.sql_id = '&sqlid' and
b.snap_id = s.snap_id
and s.begin_interval_time >= sysdate-&days_back
and s.instance_number = b.instance_number
and b.executions_delta > 0
order by
b.sql_id,
b.snap_id,
b.snap_id,
s.instance_number
;
FRA:
从v $ recovery_file_dest中选择*; select * from v $ flash_recovery_area_usage;
选择 文件类型, space_used percent_space_used / 100/1024/1024使用, space_reclaimable percent_space_reclaimable / 100/1024/1024可回收, frau.number_of_files 来自v $ recovery_file_dest rfd,v $ flash_recovery_area_usage frau;