"SQL 모음"의 두 판 사이의 차이
DB CAFE
(→일반 사용자 용) |
(→모니터링) |
||
(같은 사용자의 중간 판 62개는 보이지 않습니다) | |||
3번째 줄: | 3번째 줄: | ||
== INDEX 보기 == | == INDEX 보기 == | ||
− | + | * USER_INDEXES | |
+ | * USER_IND_COLUMNS | ||
<source lang="sql"> | <source lang="sql"> | ||
13번째 줄: | 14번째 줄: | ||
, USER_IND_COLUMNS B | , USER_IND_COLUMNS B | ||
WHERE A.INDEX_NAME = B.INDEX_NAME | WHERE A.INDEX_NAME = B.INDEX_NAME | ||
− | AND A.TABLE_OWNER = UPPER(' | + | AND A.TABLE_OWNER = UPPER('&OWNER명') |
AND A.TABLE_NAME = UPPER('&테이블명') ORDER BY 1, 3; | AND A.TABLE_NAME = UPPER('&테이블명') ORDER BY 1, 3; | ||
</source> | </source> | ||
== 전체 INDEX 보기 == | == 전체 INDEX 보기 == | ||
+ | * DBA_INDEXES | ||
+ | * DBA_IND_COLUMNS | ||
<source lang="sql"> | <source lang="sql"> | ||
SELECT SUBSTRB(A.TABLE_NAME, 1, 22) AS TABLE_NAME | SELECT SUBSTRB(A.TABLE_NAME, 1, 22) AS TABLE_NAME | ||
28번째 줄: | 31번째 줄: | ||
WHERE A.INDEX_NAME = B.INDEX_NAME | WHERE A.INDEX_NAME = B.INDEX_NAME | ||
AND A.TABLE_OWNER = B.TABLE_OWNER | AND A.TABLE_OWNER = B.TABLE_OWNER | ||
− | AND A.TABLE_OWNER = ' | + | AND A.TABLE_OWNER = '&OWNER명' |
ORDER BY 1, 2, 3; | ORDER BY 1, 2, 3; | ||
</source> | </source> | ||
== 특정 테이블의 인덱스 확인 == | == 특정 테이블의 인덱스 확인 == | ||
− | + | * ALL_IND_COLUMNS | |
<source lang="sql"> | <source lang="sql"> | ||
/* 인덱스를 확인 하고자 할때 사용하는 쿼리 */ | /* 인덱스를 확인 하고자 할때 사용하는 쿼리 */ | ||
56번째 줄: | 59번째 줄: | ||
== 인덱스에 대한 컬럼 조회 == | == 인덱스에 대한 컬럼 조회 == | ||
− | + | * USER_IND_COLUMNS | |
<source lang="sql"> | <source lang="sql"> | ||
SELECT TABLE_NAME | SELECT TABLE_NAME | ||
83번째 줄: | 86번째 줄: | ||
== PRIMARY KEY를 REFERENCE 하는 FOREIGN KEY 찾기 == | == PRIMARY KEY를 REFERENCE 하는 FOREIGN KEY 찾기 == | ||
− | + | * DBA_OBJECTS | |
+ | * CDEF$ | ||
+ | * CON$ | ||
<source lang="sql"> | <source lang="sql"> | ||
SELECT C.NAME CONSTRAINT_NAME | SELECT C.NAME CONSTRAINT_NAME | ||
94번째 줄: | 99번째 줄: | ||
== 중복인덱스 체크 == | == 중복인덱스 체크 == | ||
+ | * SYS.ICOL$ | ||
+ | * SYS.IND$ | ||
+ | * SYS.OBJ$ | ||
+ | * SYS.USER$ | ||
<source lang="sql"> | <source lang="sql"> | ||
125번째 줄: | 134번째 줄: | ||
AND O1.USER# = N1.OWNER# | AND O1.USER# = N1.OWNER# | ||
AND O2.USER# = N2.OWNER#; | AND O2.USER# = N2.OWNER#; | ||
+ | </source> | ||
+ | 또는 | ||
+ | <source lang=sql> | ||
+ | |||
+ | select /*+ rule */ | ||
+ | a.table_owner, | ||
+ | a.table_name, | ||
+ | a.index_owner, | ||
+ | a.index_name, | ||
+ | column_name_list, | ||
+ | column_name_list_dup, | ||
+ | dup duplicate_indexes, | ||
+ | i.uniqueness, | ||
+ | i.partitioned, | ||
+ | i.leaf_blocks, | ||
+ | i.distinct_keys, | ||
+ | i.num_rows, | ||
+ | i.clustering_factor | ||
+ | from | ||
+ | ( | ||
+ | select | ||
+ | table_owner, | ||
+ | table_name, | ||
+ | index_owner, | ||
+ | index_name, | ||
+ | column_name_list_dup, | ||
+ | dup, | ||
+ | max(dup) OVER | ||
+ | (partition by table_owner, table_name, index_name) dup_mx | ||
+ | from | ||
+ | ( | ||
+ | select | ||
+ | table_owner, | ||
+ | table_name, | ||
+ | index_owner, | ||
+ | index_name, | ||
+ | substr(SYS_CONNECT_BY_PATH(column_name, ','),2) | ||
+ | column_name_list_dup, | ||
+ | dup | ||
+ | from | ||
+ | ( | ||
+ | select | ||
+ | index_owner, | ||
+ | index_name, | ||
+ | table_owner, | ||
+ | table_name, | ||
+ | column_name, | ||
+ | count(1) OVER | ||
+ | (partition by | ||
+ | index_owner, | ||
+ | index_name) cnt, | ||
+ | ROW_NUMBER () OVER | ||
+ | (partition by | ||
+ | index_owner, | ||
+ | index_name | ||
+ | order by column_position) as seq, | ||
+ | count(1) OVER | ||
+ | (partition by | ||
+ | table_owner, | ||
+ | table_name, | ||
+ | column_name, | ||
+ | column_position) as dup | ||
+ | from | ||
+ | sys.dba_ind_columns | ||
+ | where | ||
+ | index_owner not in ('SYS', 'SYSTEM')) | ||
+ | where | ||
+ | dup!=1 | ||
+ | start with seq=1 | ||
+ | connect by prior seq+1=seq | ||
+ | and prior index_owner=index_owner | ||
+ | and prior index_name=index_name | ||
+ | )) a, | ||
+ | ( | ||
+ | select | ||
+ | table_owner, | ||
+ | table_name, | ||
+ | index_owner, | ||
+ | index_name, | ||
+ | substr(SYS_CONNECT_BY_PATH(column_name, ','),2) column_name_list | ||
+ | from | ||
+ | ( | ||
+ | select index_owner, index_name, table_owner, table_name, column_name, | ||
+ | count(1) OVER ( partition by index_owner, index_name) cnt, | ||
+ | ROW_NUMBER () OVER ( partition by index_owner, index_name order by column_position) as seq | ||
+ | from sys.dba_ind_columns | ||
+ | where index_owner not in ('SYS', 'SYSTEM')) | ||
+ | where seq=cnt | ||
+ | start with seq=1 | ||
+ | connect by prior seq+1=seq | ||
+ | and prior index_owner=index_owner | ||
+ | and prior index_name=index_name | ||
+ | ) b, dba_indexes i | ||
+ | where | ||
+ | a.dup=a.dup_mx | ||
+ | and a.index_owner=b.index_owner | ||
+ | and a.index_name=b.index_name | ||
+ | and a.index_owner=i.owner | ||
+ | and a.index_name=i.index_name | ||
+ | order by | ||
+ | a.table_owner, a.table_name, column_name_list_dup; | ||
</source> | </source> | ||
== 테이블의 PK를 구성하는 컬럼 조회 == | == 테이블의 PK를 구성하는 컬럼 조회 == | ||
− | + | * USER_TABLES | |
+ | * USER_CONSTRAINTS | ||
+ | * USER_CONS_COLUMNS | ||
<source lang="sql"> | <source lang="sql"> | ||
SELECT A.TABLE_NAME, B.CONSTRAINT_NAME, C.COLUMN_NAME | SELECT A.TABLE_NAME, B.CONSTRAINT_NAME, C.COLUMN_NAME | ||
140번째 줄: | 252번째 줄: | ||
== Index가 없는 Table 조회 == | == Index가 없는 Table 조회 == | ||
− | + | * DBA_TABLES | |
+ | * DBA_INDEXES | ||
<source lang="sql"> | <source lang="sql"> | ||
SELECT OWNER, TABLE_NAME | SELECT OWNER, TABLE_NAME | ||
156번째 줄: | 269번째 줄: | ||
= 락 정보 = | = 락 정보 = | ||
== 테이블에 LOCK이 걸렸는지를 보기 == | == 테이블에 LOCK이 걸렸는지를 보기 == | ||
+ | * V$SESSION | ||
+ | * V$LOCK | ||
+ | * DBA_OBJECTS | ||
<source lang="sql"> | <source lang="sql"> | ||
SELECT A.SID | SELECT A.SID | ||
173번째 줄: | 289번째 줄: | ||
AND C.OBJECT_NAME LIKE UPPER('&테이블명'); | AND C.OBJECT_NAME LIKE UPPER('&테이블명'); | ||
</source> | </source> | ||
− | |||
== Lock을 잡고있는 세션과 기다리는 세션 조회 == | == Lock을 잡고있는 세션과 기다리는 세션 조회 == | ||
+ | * V$SESSION | ||
+ | * V$LOCK | ||
+ | * DBA_OBJECTS | ||
<source lang="sql"> | <source lang="sql"> | ||
204번째 줄: | 322번째 줄: | ||
== 작업 중인 데이터베이스 트랜잭션 조회 == | == 작업 중인 데이터베이스 트랜잭션 조회 == | ||
− | + | * V$SESSION | |
+ | * V$TRANSACTION | ||
+ | * DBA_ROLLBACK_SEGS | ||
<source lang="sql"> | <source lang="sql"> | ||
SELECT S.SID | SELECT S.SID | ||
221번째 줄: | 341번째 줄: | ||
== 열려 있는 커서 조회 == | == 열려 있는 커서 조회 == | ||
− | + | * V$SESSION | |
+ | * V$OPEN_CURSOR | ||
<source lang="sql"> | <source lang="sql"> | ||
SELECT A.SID | SELECT A.SID | ||
234번째 줄: | 355번째 줄: | ||
</source> | </source> | ||
− | == | + | == LOCK 발생 유형 조회 == |
− | + | * V$LOCK | |
<source lang="sql"> SELECT A.SID | <source lang="sql"> SELECT A.SID | ||
295번째 줄: | 416번째 줄: | ||
</source> | </source> | ||
− | + | == LOCK 상태 오브젝트 조회 == | |
− | == | + | * V$LOCKED_OBJECT |
− | + | * V$SESSION | |
+ | * DBA_OBJECT | ||
<source lang="sql"> | <source lang="sql"> | ||
− | |||
SELECT A.SESSION_ID | SELECT A.SESSION_ID | ||
, B.SERIAL# | , B.SERIAL# | ||
313번째 줄: | 434번째 줄: | ||
</source> | </source> | ||
− | == | + | == LOCK 걸린 SQL 구문 조회 == |
− | + | * V$SQLTEXT | |
+ | * V$SESSION | ||
+ | * V$ACCESS | ||
<source lang="sql"> | <source lang="sql"> | ||
− | |||
SELECT B.USERNAME AS USERNAME | SELECT B.USERNAME AS USERNAME | ||
, C.SID AS SID | , C.SID AS SID | ||
330번째 줄: | 452번째 줄: | ||
AND A.HASH_VALUE = B.SQL_HASH_VALUE | AND A.HASH_VALUE = B.SQL_HASH_VALUE | ||
AND B.SID = C.SID | AND B.SID = C.SID | ||
− | AND C.OWNER!= 'SYS'; </source> | + | AND C.OWNER!= 'SYS'; |
+ | </source> | ||
== 해당 테이블의 세션을 제거하는 쿼리 == | == 해당 테이블의 세션을 제거하는 쿼리 == | ||
− | + | * V$LOCK | |
+ | * DBA_OBJECTS | ||
+ | * V$SESSION | ||
<source lang="sql"> | <source lang="sql"> | ||
SELECT 'ALTER SYSTEM KILL SESSION '''|| S.SID||','||S.SERIAL# ||''';' | SELECT 'ALTER SYSTEM KILL SESSION '''|| S.SID||','||S.SERIAL# ||''';' | ||
344번째 줄: | 469번째 줄: | ||
== Blocking Lock Session 확인 == | == Blocking Lock Session 확인 == | ||
− | + | * V$SQLTEXT | |
+ | * V$SESSION | ||
+ | * V$ACCESS | ||
<source lang='sql'> | <source lang='sql'> | ||
SELECT B.BLOCKING_SESSION AS BLOCKING_SESSION_SID | SELECT B.BLOCKING_SESSION AS BLOCKING_SESSION_SID | ||
367번째 줄: | 494번째 줄: | ||
= 테이블 정보 = | = 테이블 정보 = | ||
== 테이블 생성일자 보기 == | == 테이블 생성일자 보기 == | ||
− | + | * USER_OBJECTS | |
<source lang="sql"> | <source lang="sql"> | ||
SELECT SUBSTRB(OBJECT_NAME, 1, 15) AS OBJECT_NAME | SELECT SUBSTRB(OBJECT_NAME, 1, 15) AS OBJECT_NAME | ||
380번째 줄: | 507번째 줄: | ||
== 테이블의 크기 및 블록 보기 == | == 테이블의 크기 및 블록 보기 == | ||
− | + | * USER_SEGMENTS | |
<source lang="sql"> | <source lang="sql"> | ||
− | SELECT SUBSTR(SEGMENT_NAME, 1, 20), BYTES, BLOCKS | + | SELECT SUBSTR(SEGMENT_NAME, 1, 20) |
+ | , BYTES | ||
+ | , BLOCKS | ||
FROM USER_SEGMENTS | FROM USER_SEGMENTS | ||
WHERE SEGMENT_NAME = UPPER('&테이블명'); | WHERE SEGMENT_NAME = UPPER('&테이블명'); | ||
388번째 줄: | 517번째 줄: | ||
== 파티션 테이블의 파티션 범위 보기 == | == 파티션 테이블의 파티션 범위 보기 == | ||
− | + | * USER_TAB_PARTITIONS | |
<source lang="sql"> | <source lang="sql"> | ||
SELECT SUBSTRB(PARTITION_NAME, 1, 30) AS PARTITION_NAME, SUBSTRB(TABLESPACE_NAME, 1, 30) AS TABLESPACE_NAME, HIGH_VALUE | SELECT SUBSTRB(PARTITION_NAME, 1, 30) AS PARTITION_NAME, SUBSTRB(TABLESPACE_NAME, 1, 30) AS TABLESPACE_NAME, HIGH_VALUE | ||
396번째 줄: | 525번째 줄: | ||
== CONSTRAINT 보기 == | == CONSTRAINT 보기 == | ||
− | + | * DBA_CONSTRAINTS | |
+ | * DBA_CONS_COLUMNS | ||
<source lang="sql"> | <source lang="sql"> | ||
SELECT DECODE(A.CONSTRAINT_TYPE, 'P', 'Primary Key', 'R', 'Foreign Key', 'C', 'Table Check', 'V', 'View Check', 'U', 'Unique', '?') AS "유형" | SELECT DECODE(A.CONSTRAINT_TYPE, 'P', 'Primary Key', 'R', 'Foreign Key', 'C', 'Table Check', 'V', 'View Check', 'U', 'Unique', '?') AS "유형" | ||
411번째 줄: | 541번째 줄: | ||
== 특정 테이블의 스키마 구조 확인 == | == 특정 테이블의 스키마 구조 확인 == | ||
=== DBA 용 === | === DBA 용 === | ||
+ | * DBA_TAB_COLUMNS | ||
+ | * DBA_COL_COMMENTS | ||
+ | * DBA_CONS_COLUMNS | ||
<source lang="sql"> | <source lang="sql"> | ||
503번째 줄: | 636번째 줄: | ||
== 사용자별 오브젝트 수 == | == 사용자별 오브젝트 수 == | ||
− | + | * DBA_OBJECTS | |
<source lang="sql"> | <source lang="sql"> | ||
− | SELECT OWNER AS "OWNER" | + | SELECT OWNER AS "OWNER" |
− | + | , SUM (DECODE (OBJECT_TYPE, 'TABLE', 1, 0)) AS "TABLE" | |
− | + | , SUM (DECODE (OBJECT_TYPE, 'INDEX', 1, 0)) AS "INDEX" | |
− | + | , SUM (DECODE (OBJECT_TYPE, 'SYNONYM', 1, 0)) AS "SYNONYMS" | |
− | + | , SUM (DECODE (OBJECT_TYPE, 'SEQUENCE', 1, 0)) AS "SEQUENCES" | |
− | + | , SUM (DECODE (OBJECT_TYPE, 'VIEW', 1, 0)) AS "VIEWS" | |
− | + | , SUM (DECODE (OBJECT_TYPE, 'CLUSTER', 1, 0)) AS "CLUSTERS" | |
− | + | , SUM (DECODE (OBJECT_TYPE, 'DATABASE LINK', 1, 0)) AS "DBLINKS" | |
− | + | , SUM (DECODE (OBJECT_TYPE, 'PACKAGE', 1, 0)) AS "PACKAGES" | |
− | + | , SUM (DECODE (OBJECT_TYPE, 'PACKAGE BODY', 1, 0)) AS "PACKAGE_BODY" | |
− | + | , SUM (DECODE (OBJECT_TYPE, 'PROCEDURE', 1, 0)) AS "PROCEDURES" | |
− | + | , SUM (DECODE (OBJECT_TYPE, 'FUNCTION', 1, 0)) AS "FUNCTION" | |
− | FROM DBA_OBJECTS GROUP BY OWNER; | + | FROM DBA_OBJECTS |
+ | GROUP BY OWNER; | ||
</source> | </source> | ||
524번째 줄: | 658번째 줄: | ||
---- | ---- | ||
− | + | {{:모니터링 SQL}} | |
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= 프로시져/패키지 = | = 프로시져/패키지 = | ||
875번째 줄: | 674번째 줄: | ||
---- | ---- | ||
:IN_OBJECT_NAME: 패키지 이름 | :IN_OBJECT_NAME: 패키지 이름 | ||
− | SELECT OBJECT_NAME FROM DBA_OBJECTS WHERE OWNER =:IN_OWNER AND OBJECT_NAME LIKE '%' ||:IN_OBJECT_NAME || '%' AND OBJECT_TYPE = 'PACKAGE'; </source> | + | SELECT OBJECT_NAME |
+ | FROM DBA_OBJECTS | ||
+ | WHERE OWNER =:IN_OWNER | ||
+ | AND OBJECT_NAME LIKE '%' ||:IN_OBJECT_NAME || '%' | ||
+ | AND OBJECT_TYPE = 'PACKAGE'; </source> | ||
-- 오라클 사용자의 패키지 중에서 텍스트 내용을 검색하여 패키지 정보를 추출 | -- 오라클 사용자의 패키지 중에서 텍스트 내용을 검색하여 패키지 정보를 추출 | ||
886번째 줄: | 689번째 줄: | ||
<source lang="sql"> SELECT NAME -- 패키지 이름 , LINE -- 라인 수 , TEXT -- 패키지 BODY에 수정된 내용 FROM DBA_SOURCE WHERE OWNER =:IN_OWNER AND TEXT LIKE '%' ||:IN_TEXT || '%'; </source> | <source lang="sql"> SELECT NAME -- 패키지 이름 , LINE -- 라인 수 , TEXT -- 패키지 BODY에 수정된 내용 FROM DBA_SOURCE WHERE OWNER =:IN_OWNER AND TEXT LIKE '%' ||:IN_TEXT || '%'; </source> | ||
− | |||
− | |||
== 특정 사용자의 패키지 내에서 주석처리가 되지 않은 항목을 조회 == | == 특정 사용자의 패키지 내에서 주석처리가 되지 않은 항목을 조회 == | ||
1,093번째 줄: | 894번째 줄: | ||
WHERE A.컬럼 = B.컬럼); | WHERE A.컬럼 = B.컬럼); | ||
</source> | </source> | ||
− | + | ---- | |
− | + | == 데이터베이스 시작/종료 관리 명령 == | |
+ | {{:SRVCTL 명령어}} | ||
+ | ---- | ||
+ | {{:CRSCTL 명령어}} | ||
[[Category:oracle]] | [[Category:oracle]] |
2024년 7월 12일 (금) 15:44 기준 최신판
thumb_up 추천메뉴 바로가기
- DBA { Oracle DBA 명령어 > DBA 초급 과정 > DBA 고급 과정 }
- 튜닝 { 오라클 튜닝 목록 }
- 모델링 { 데이터 모델링 가이드 }
목차
- 1 인덱스 정보
- 2 락 정보
- 3 테이블 정보
- 4 모니터링
- 4.1 연결되어 있는 OS 사용자 및 프로그램 조회
- 4.2 1시간 이상 유휴 상태인 세션
- 4.3 Active Session 중 Idle Time이 긴 작업
- 4.4 DBUser 별로 Session 정보를 조회
- 4.5 Session별 사용 명령어
- 4.6 사용자 session 2시간 이상 idle 상태가 지속되는 session kill
- 4.7 Oracle Process의 정보
- 4.8 오브젝트에 접속되어 있는 프로그램 조회
- 4.9 롤백 세그먼트 경합 조회
- 4.10 CPU를 많이 사용하는 세션의 식별
- 4.11 Disk Read 가 많은 SQL문 찾기
- 4.12 Rollback Segment를 사용하고 있는 SQL문 조회
- 4.13 오래도록 수행되는 Full Table Scan를 모니터링
- 4.14 System 테이블스페이스에 비시스템 세그먼트 조회
- 4.15 인덱스의 Delete Space 조회
- 4.16 딕셔너리/뷰 정보 조회
- 4.17 유저의 모든 세션 트레이스
- 4.18 커셔 내부 SQL의 상세내용 보기
- 4.19 커셔 내부 sql쿼리 Flush
- 4.20 sql_id 의 바인드변수 값 조회
- 4.21 현재 실행 중인 세션의 SQL 조회
- 4.22 ACTIVE 세션 정보 조회
- 4.23 DB 대기이벤트 조회
- 4.24 세션의 템프 사용량 조회
- 4.25 현재 트랜잭션 조회
- 4.26 리스너 트레이스
- 4.27 세션의 PGA 사용량
- 4.28 현재 SGA 사용량
- 4.29 physical read가 높은 세그먼트 조회
- 4.30 템프 파일별 I/O 사용량
- 4.31 [ash] TOP 쿼리
- 4.32 [ash] 블로킹 세션 찾기
- 4.33 cpu 과사용 세션
- 4.34 라이브러리 캐시 락을 잡는 세션
- 4.35 라이브러리 캐시에 의해 락이 발생된 세션
- 4.36 유저가 엑세스 하는 오브젝트 조회
- 4.37 FULL TABLE SCAN 하는 SQL
- 4.38 딕셔너리 캐시 히트율
- 4.39 데이터베이스 뮤텍스 SLEEP
- 4.40 대량 Physical read를 유발하는 쿼리
- 4.41 대량 리두를 발생시키는 세션 조회
- 4.42 언두를 발생시키는 세션 조회
- 4.43 latch contetion을 유발하는 쿼리
- 4.44 래치 타입 과 hash value
- 4.45 커서에서 추출한 sql id에 대한 sql tuning advisor
- 4.46 SGA 타겟 advisor
- 4.47 쉐어드풀 advisor
- 4.48 쉐어드풀 flush를 유발하는 오브젝트
- 4.49 ADDM 리포트 생성
- 5 프로시져/패키지
- 5.1 패키지 검색 1 - 특정 오라클 사용자 중에서 패키지 소스와 일치하는 텍스트를 조회
- 5.2 특정 사용자의 패키지 내에서 주석처리가 되지 않은 항목을 조회
- 5.3 다중 UPDATE 쿼리
- 5.4 CPU를 많이 사용하는 세션의 식별(SQL TEXT 조회)
- 5.5 현재 세션에서 10초이상 걸리는 쿼리 조회 (SELECT절)
- 5.6 현재 세션에서 PGA, UGA, CPU 사용량 세션별로 조회하는 쿼리
- 5.7 상호 DB간에 컬럼 이름 비교
- 5.8 DB Link 보기
- 5.9 View의 정의 내역 보기
- 5.10 동일(중복) 자료 삭제 방법
- 5.11 데이터베이스 시작/종료 관리 명령
- 5.12 svrctl 명령어
- 5.13 crsctl 명령어
- 5.13.1 crs autorestart Enable/Disable
- 5.13.2 crs Stop/Start
- 5.13.3 RAC에서 클러스터 명 찾기
- 5.13.4 voting disk 위치 조회
- 5.13.5 OCR 위치 조회
- 5.13.6 그리드 버전 조회
- 5.13.7 클러스터 컴포넌트 상태 체크
- 5.13.8 cluster_interconnect 상세조회
- 5.13.9 ocr /list 수동 백업
- 5.13.10 Voting Disk를 새로운 DistGroup으로 이동하기
- 5.13.11 디스크 타임아웃 조회
- 5.13.12 olsnode를 이용한 node 정보 조회
- 5.13.13 클러스터 환경설정 정보 조회
- 5.13.14 RAC 인터페이스 정보조회
- 5.13.15 RAC - OLR(Oracle Local Registry)
1 인덱스 정보[편집]
1.1 INDEX 보기[편집]
- USER_INDEXES
- USER_IND_COLUMNS
SELECT A.INDEX_NAME
, A.UNIQUENESS
, TO_CHAR(COLUMN_POSITION, '999') AS POS
, SUBSTRB(COLUMN_NAME, 1, 33) AS COLUMN_NAME
FROM USER_INDEXES A
, USER_IND_COLUMNS B
WHERE A.INDEX_NAME = B.INDEX_NAME
AND A.TABLE_OWNER = UPPER('&OWNER명')
AND A.TABLE_NAME = UPPER('&테이블명') ORDER BY 1, 3;
1.2 전체 INDEX 보기[편집]
- DBA_INDEXES
- DBA_IND_COLUMNS
SELECT SUBSTRB(A.TABLE_NAME, 1, 22) AS TABLE_NAME
, SUBSTRB(A.INDEX_NAME, 1, 23) AS INDEX_NAME
, SUBSTRB(A.UNIQUENESS, 1, 7) AS UNIQUE
, TO_CHAR(COLUMN_POSITION, '999') AS POS
, SUBSTRB(COLUMN_NAME, 1, 20) AS COLUMN_NAME
FROM DBA_INDEXES A
, DBA_IND_COLUMNS B
WHERE A.INDEX_NAME = B.INDEX_NAME
AND A.TABLE_OWNER = B.TABLE_OWNER
AND A.TABLE_OWNER = '&OWNER명'
ORDER BY 1, 2, 3;
1.3 특정 테이블의 인덱스 확인[편집]
- ALL_IND_COLUMNS
/* 인덱스를 확인 하고자 할때 사용하는 쿼리 */
SELECT C.TABLE_NAME
, C.INDEX_NAME
, C.COLUMN_NAME
, C.COLUMN_POSITION
, T.NUM_ROWS
FROM ALL_IND_COLUMNS C
, (SELECT TABLE_NAME, NUM_ROWS
FROM ALL_TABLES
WHERE OWNER = 'ESTDBA'
AND TABLE_NAME IN (SELECT TABLE_NAME
FROM USER_TABLES
WHERE TABLE_NAME LIKE:IN_TABLE_NAME || '%'
)
AND NUM_ROWS > 0
) T
WHERE C.TABLE_NAME = T.TABLE_NAME
ORDER BY T.NUM_ROWS DESC, C.TABLE_NAME, C.INDEX_NAME, C.COLUMN_POSITION;
1.4 인덱스에 대한 컬럼 조회[편집]
- USER_IND_COLUMNS
SELECT TABLE_NAME
, INDEX_NAME
, COLUMN_POSITION
, COLUMN_NAME
FROM USER_IND_COLUMNS
ORDER BY TABLE_NAME, INDEX_NAME, COLUMN_POSITION;
1.5 PRIMARY KEY 재생성 방법[편집]
--- PRIMARY KEY DROP
ALTER TABLE EMP
DROP PRIMARY KEY;
-- PRIMARY KEY 생성
ALTER TABLE EMP
ADD CONSTRAINT EMP_PK
PRIMARY KEY(EMPNO)
USING INDEX STORAGE(INITIAL 1M NEXT 1M PCTINCREASE 0)
TABLESPACE USERS;
1.6 PRIMARY KEY를 REFERENCE 하는 FOREIGN KEY 찾기[편집]
- DBA_OBJECTS
- CDEF$
- CON$
SELECT C.NAME CONSTRAINT_NAME
FROM DBA_OBJECTS A
, CDEF$ B
, CON$ C
WHERE A.OBJECT_NAME = UPPER('&테이블명')
AND A.OBJECT_ID = B.ROBJ#
AND B.CON# = C.CON#;
1.7 중복인덱스 체크[편집]
- SYS.ICOL$
- SYS.IND$
- SYS.OBJ$
- SYS.USER$
SELECT O1.NAME || '.' || N1.NAME REDUNDANT_INDEX
, O2.NAME || '.' || N2.NAME SUFFICIENT_INDEX
FROM SYS.ICOL$ IC1
, SYS.ICOL$ IC2
, SYS.IND$ I1
, SYS.OBJ$ N1
, SYS.OBJ$ N2
, SYS.USER$ O1
, SYS.USER$ O2
WHERE IC1.POS# = 1
AND IC2.BO# = IC1.BO#
AND IC2.OBJ# != IC1.OBJ#
AND IC2.POS# = 1
AND IC2.INTCOL# = IC1.INTCOL#
AND I1.OBJ# = IC1.OBJ#
AND BITAND (I1.PROPERTY, 1) = 0
AND (SELECT MAX (POS#) * (MAX (POS#) + 1) / 2
FROM SYS.ICOL$
WHERE OBJ# = IC1.OBJ#) =
(SELECT SUM (XC1.POS#)
FROM SYS.ICOL$ XC1, SYS.ICOL$ XC2
WHERE XC1.OBJ# = IC1.OBJ#
AND XC2.OBJ# = IC2.OBJ#
AND XC1.POS# = XC2.POS#
AND XC1.INTCOL# = XC2.INTCOL#)
AND N1.OBJ# = IC1.OBJ#
AND N2.OBJ# = IC2.OBJ#
AND O1.USER# = N1.OWNER#
AND O2.USER# = N2.OWNER#;
또는
select /*+ rule */
a.table_owner,
a.table_name,
a.index_owner,
a.index_name,
column_name_list,
column_name_list_dup,
dup duplicate_indexes,
i.uniqueness,
i.partitioned,
i.leaf_blocks,
i.distinct_keys,
i.num_rows,
i.clustering_factor
from
(
select
table_owner,
table_name,
index_owner,
index_name,
column_name_list_dup,
dup,
max(dup) OVER
(partition by table_owner, table_name, index_name) dup_mx
from
(
select
table_owner,
table_name,
index_owner,
index_name,
substr(SYS_CONNECT_BY_PATH(column_name, ','),2)
column_name_list_dup,
dup
from
(
select
index_owner,
index_name,
table_owner,
table_name,
column_name,
count(1) OVER
(partition by
index_owner,
index_name) cnt,
ROW_NUMBER () OVER
(partition by
index_owner,
index_name
order by column_position) as seq,
count(1) OVER
(partition by
table_owner,
table_name,
column_name,
column_position) as dup
from
sys.dba_ind_columns
where
index_owner not in ('SYS', 'SYSTEM'))
where
dup!=1
start with seq=1
connect by prior seq+1=seq
and prior index_owner=index_owner
and prior index_name=index_name
)) a,
(
select
table_owner,
table_name,
index_owner,
index_name,
substr(SYS_CONNECT_BY_PATH(column_name, ','),2) column_name_list
from
(
select index_owner, index_name, table_owner, table_name, column_name,
count(1) OVER ( partition by index_owner, index_name) cnt,
ROW_NUMBER () OVER ( partition by index_owner, index_name order by column_position) as seq
from sys.dba_ind_columns
where index_owner not in ('SYS', 'SYSTEM'))
where seq=cnt
start with seq=1
connect by prior seq+1=seq
and prior index_owner=index_owner
and prior index_name=index_name
) b, dba_indexes i
where
a.dup=a.dup_mx
and a.index_owner=b.index_owner
and a.index_name=b.index_name
and a.index_owner=i.owner
and a.index_name=i.index_name
order by
a.table_owner, a.table_name, column_name_list_dup;
1.8 테이블의 PK를 구성하는 컬럼 조회[편집]
- USER_TABLES
- USER_CONSTRAINTS
- USER_CONS_COLUMNS
SELECT A.TABLE_NAME, B.CONSTRAINT_NAME, C.COLUMN_NAME
FROM USER_TABLES A
, USER_CONSTRAINTS B
, USER_CONS_COLUMNS C
WHERE A.TABLE_NAME = B.TABLE_NAME
AND B.CONSTRAINT_NAME = C.CONSTRAINT_NAME
AND B.CONSTRAINT_TYPE = 'P';
1.9 Index가 없는 Table 조회[편집]
- DBA_TABLES
- DBA_INDEXES
SELECT OWNER, TABLE_NAME
FROM (SELECT OWNER
, TABLE_NAME
FROM DBA_TABLES
MINUS
SELECT TABLE_OWNER
, TABLE_NAME
FROM DBA_INDEXES
)
WHERE OWNER NOT IN ('SYS', 'SYSTEM') ORDER BY OWNER, TABLE_NAME;
2 락 정보[편집]
2.1 테이블에 LOCK이 걸렸는지를 보기[편집]
- V$SESSION
- V$LOCK
- DBA_OBJECTS
SELECT A.SID
, A.SERIAL#
, SUBSTRB(A.USERNAME, 1, 16) AS USERNAME
, SUBSTRB(A.MACHINE, 1, 30) AS MACHINE
, A.TERMINAL
, A.OSUSER
, A.PROGRAM
, SUBSTRB(TO_CHAR(A.LOGON_TIME, 'MM/DD HH24:MI:SS'), 1, 14) AS LOGON_TIME
, SUBSTRB(C.OBJECT_NAME, 1, 58) AS OBJECT_NAME
FROM V$SESSION A
, V$LOCK B
, DBA_OBJECTS C
WHERE A.SID = B.SID AND B.ID1 = C.OBJECT_ID
AND B.TYPE = 'TM'
AND C.OBJECT_NAME LIKE UPPER('&테이블명');
2.2 Lock을 잡고있는 세션과 기다리는 세션 조회[편집]
- V$SESSION
- V$LOCK
- DBA_OBJECTS
SELECT DECODE(B.LOCKWAIT, NULL, ' ', 'w') AS WW
, B.SID
, B.SERIAL# AS SER#
, SUBSTR(B.MACHINE, 1, 10) AS MACHINE
, SUBSTR(B.PROGRAM, 1, 15) AS PROGRAM
, SUBSTR(A.OBJECT_NAME, 1, 17) AS OBJ_NAME
, SUBSTR(B.STATUS, 1, 1) AS S
, DECODE(B.COMMAND, 0, NULL, 2, 'INSERT', 6, 'UPDATE', 7, 'DELETE', B.COMMAND) AS SQLCMD
, B.PROCESS AS PGM_PSS
FROM V$SESSION B
, ( SELECT A.SID, DECODE(B.OWNER, NULL, A.TYPE || '..ing', B.OWNER || '.' || B.OBJECT_NAME) AS OBJECT_NAME
FROM V$LOCK A
, DBA_OBJECTS B
WHERE A.ID1 = B.OBJECT_ID(+)
GROUP BY A.SID, DECODE(B.OWNER, NULL, A.TYPE || '..ing', B.OWNER || '.' || B.OBJECT_NAME)
) A
WHERE B.SID = A.SID
AND B.TADDR IS NOT NULL;
2.3 테이블에 걸린 비정상적 LOCK 풀기[편집]
ALTER SYSTEM KILL SESSION '&SID,&SERIAL';
- RAC
ALTER SYSTEM KILL SESSION '&SID,&SERIAL,@1';
2.4 작업 중인 데이터베이스 트랜잭션 조회[편집]
- V$SESSION
- V$TRANSACTION
- DBA_ROLLBACK_SEGS
SELECT S.SID
, S.SERIAL#
, S.STATUS
, S.OSUSER
, S.USERNAME
, T.STATUS
, T.START_TIME
FROM V$SESSION S
, V$TRANSACTION T
, DBA_ROLLBACK_SEGS R
WHERE S.TADDR = T.ADDR
AND T.XIDUSN = R.SEGMENT_ID;
2.5 열려 있는 커서 조회[편집]
- V$SESSION
- V$OPEN_CURSOR
SELECT A.SID
, A.OSUSER
, COUNT(B.SID) AS "CURSOR"
, A.PROGRAM
, A.STATUS
FROM V$SESSION A
, V$OPEN_CURSOR B
WHERE A.SID = B.SID(+)
GROUP BY A.SID, A.OSUSER, A.PROGRAM, A.STATUS;
2.6 LOCK 발생 유형 조회[편집]
- V$LOCK
SELECT A.SID
,DECODE(A.TYPE
,'MR', 'MEDIA RECOVERY'
,'RT', 'REDO THREAD'
,'UN', 'USER_NAME'
,'TX', 'TRANSACTION'
,'TM', 'DML'
,'UL', 'PL/SQL USER LOCK'
,'DX', 'DISTRIBUTED XACTION'
,'CF', 'CONTROL FILE'
,'IS', 'INSTANCE STATE'
,'FS', 'FILE SET'
,'IR', 'INSTANCE RECOVERY'
,'FS', 'FILE SET'
,'ST', 'DISK SPACE TRANSACTION'
,'TS', 'TEMP SEGMENT'
,'IV', 'LIBRARY CACHE INVAILDATION'
,'LS', 'LOG START OR SWITCH'
,'RW', 'ROW WAIT'
,'SQ', 'SEQUENCE NUMBER'
,'TE', 'EXTEND TABLE'
,'TT', 'TEMP TABLE'
,A.TYPE
)
AS "LOCK_TYPE"
,DECODE(A.LMODE
,0, 'NONE'
,1, 'NULL'
,2, 'ROW-S(SS)'
,3, 'ROW-X(SX)'
,4, 'SHARE'
,5, 'S/ROW-X(SSX)'
,6, 'EXCLUSIVE'
,TO_CHAR(A.LMODE)
)
AS "MODE_HELD"
,DECODE(A.REQUEST
,0, 'NONE'
,1, 'NULL'
,2, 'ROW-S(SS)'
,3, 'ROW-X(SX)'
,4, 'SHARE'
,5, 'S/ROW-X(SSX)'
,6, 'EXCLUSIVE'
,TO_CHAR(A.REQUEST)
)
AS "MODE_REQUESTED"
,TO_CHAR(A.ID1) AS "LOCK_ID1"
,TO_CHAR(A.ID2) AS "LOCK_ID2"
,DECODE(BLOCK, 0, 'NOT BLOCKING', 1, 'BLOCKING', 2, 'GLOBAL', TO_CHAR(BLOCK)) AS "BLOCKING_OTHERS"
FROM V$LOCK A WHERE (ID1, ID2) IN (SELECT B.ID1, ID2
FROM V$LOCK B
WHERE B.ID1 = A.ID1);
2.7 LOCK 상태 오브젝트 조회[편집]
- V$LOCKED_OBJECT
- V$SESSION
- DBA_OBJECT
SELECT A.SESSION_ID
, B.SERIAL#
, A.OS_USER_NAME
, A.ORACLE_USERNAME
, C.OBJECT_NAME
, A.LOCKED_MODE
, A.XIDUSN
FROM V$LOCKED_OBJECT A
, V$SESSION B
, DBA_OBJECTS C
WHERE A.OBJECT_ID = C.OBJECT_ID AND A.SESSION_ID = B.SID;
2.8 LOCK 걸린 SQL 구문 조회[편집]
- V$SQLTEXT
- V$SESSION
- V$ACCESS
SELECT B.USERNAME AS USERNAME
, C.SID AS SID
, C.OWNER AS OBJECT_OWNER
, C.OBJECT AS OBJECT
, B.LOCKWAIT
, A.PIECE
, A.SQL_TEXT AS SQL
FROM V$SQLTEXT A
, V$SESSION B
, V$ACCESS C
WHERE A.ADDRESS = B.SQL_ADDRESS
AND A.HASH_VALUE = B.SQL_HASH_VALUE
AND B.SID = C.SID
AND C.OWNER!= 'SYS';
2.9 해당 테이블의 세션을 제거하는 쿼리[편집]
- V$LOCK
- DBA_OBJECTS
- V$SESSION
SELECT 'ALTER SYSTEM KILL SESSION '''|| S.SID||','||S.SERIAL# ||''';'
FROM V$LOCK L, DBA_OBJECTS O, V$SESSION S
WHERE L.ID1 = O.OBJECT_ID
AND S.SID = L.SID
AND O.OWNER = 'ESTDBA'
AND O.OBJECT_NAME = 'TMP_GSYM2'
2.10 Blocking Lock Session 확인[편집]
- V$SQLTEXT
- V$SESSION
- V$ACCESS
SELECT B.BLOCKING_SESSION AS BLOCKING_SESSION_SID
, C.SID AS LOCK_SESSION_SID
, C.OWNER AS OBJECT_OWNER
, C.OBJECT AS OBJECT
, B.LOCKWAIT
, A.PIECE
, A.SQL_TEXT AS SQL
FROM V$SQLTEXT A
, V$SESSION B
, V$ACCESS C
WHERE A.ADDRESS = B.SQL_ADDRESS
AND A.HASH_VALUE = B.SQL_HASH_VALUE
AND B.SID = C.SID
AND B.BLOCKING_SESSION IS NOT NULL
AND C.OWNER NOT IN ('SYS', 'PUBLIC')
AND C.OBJECT NOT IN ('TOAD_PLAN_TABLE')
ORDER BY A.PIECE;
3 테이블 정보[편집]
3.1 테이블 생성일자 보기[편집]
- USER_OBJECTS
SELECT SUBSTRB(OBJECT_NAME, 1, 15) AS OBJECT_NAME
, CREATED
, LAST_DDL_TIME
, TIMESTAMP
, STATUS
FROM USER_OBJECTS
WHERE OBJECT_NAME = UPPER('&테이블명')
AND OBJECT_TYPE = 'TABLE';
3.2 테이블의 크기 및 블록 보기[편집]
- USER_SEGMENTS
SELECT SUBSTR(SEGMENT_NAME, 1, 20)
, BYTES
, BLOCKS
FROM USER_SEGMENTS
WHERE SEGMENT_NAME = UPPER('&테이블명');
3.3 파티션 테이블의 파티션 범위 보기[편집]
- USER_TAB_PARTITIONS
SELECT SUBSTRB(PARTITION_NAME, 1, 30) AS PARTITION_NAME, SUBSTRB(TABLESPACE_NAME, 1, 30) AS TABLESPACE_NAME, HIGH_VALUE
FROM USER_TAB_PARTITIONS
WHERE TABLE_NAME = UPPER('&테이블명');
3.4 CONSTRAINT 보기[편집]
- DBA_CONSTRAINTS
- DBA_CONS_COLUMNS
SELECT DECODE(A.CONSTRAINT_TYPE, 'P', 'Primary Key', 'R', 'Foreign Key', 'C', 'Table Check', 'V', 'View Check', 'U', 'Unique', '?') AS "유형"
, SUBSTRB(A.CONSTRAINT_NAME, 1, 25) AS CONSTRAINT_NAME
, B.POSITION
, SUBSTRB(B.COLUMN_NAME, 1, 25) AS COLUMN_NAME
FROM DBA_CONSTRAINTS A
, DBA_CONS_COLUMNS B
WHERE A.CONSTRAINT_NAME = B.CONSTRAINT_NAME
AND A.OWNER = 'E_LUCIS'
AND A.TABLE_NAME = UPPER('&테이블명') ORDER BY 1, 2, 3;
3.5 특정 테이블의 스키마 구조 확인[편집]
3.5.1 DBA 용[편집]
- DBA_TAB_COLUMNS
- DBA_COL_COMMENTS
- DBA_CONS_COLUMNS
SELECT OWNER
, TABLE_NAME
, COLUMN_NAME
, PK
, COLUMN_NAME
, DATA_TYPE || '( ' || NVL(DATA_TYPE_2, DATA_LENGTH) || ' )' DATA_TYPE
, NULLABLE
, COMMENTS
FROM (SELECT A.OWNER
, A.TABLE_NAME
, A.COLUMN_ID
, B.POSITION PK
, A.COLUMN_NAME
, A.DATA_TYPE
, A.DATA_PRECISION || DECODE(A.DATA_SCALE, NULL, NULL, ',' || A.DATA_SCALE) DATA_TYPE_2
, A.DATA_LENGTH
, A.DATA_PRECISION
, A.DATA_SCALE
, A.NULLABLE
, A.COMMENTS
, ROW_NUMBER() OVER (PARTITION BY A.OWNER, A.TABLE_NAME, A.COLUMN_ID ORDER BY A.COLUMN_ID, B.POSITION) RN
FROM (SELECT COL.OWNER
, COL.TABLE_NAME
, COL.COLUMN_ID
, COL.COLUMN_NAME
, COL.DATA_TYPE
, COL.DATA_LENGTH
, COL.DATA_PRECISION
, COL.DATA_SCALE
, COL.NULLABLE
, COM.COMMENTS
FROM DBA_TAB_COLUMNS COL
, DBA_COL_COMMENTS COM
WHERE COL.COLUMN_NAME = COM.COLUMN_NAME
AND COL.OWNER = COM.OWNER
AND COL.TABLE_NAME = COM.TABLE_NAME
AND COM.OWNER =:IN_OWNER
AND COM.TABLE_NAME LIKE:IN_TABLE_NAME || '%'
) A
, DBA_CONS_COLUMNS B
WHERE B.TABLE_NAME(+) = A.TABLE_NAME
AND B.COLUMN_NAME(+) = A.COLUMN_NAME) X
WHERE X.RN = 1 ORDER BY X.TABLE_NAME, X.COLUMN_ID;
3.5.2 일반 사용자 용[편집]
SELECT TABLE_NAME
, COLUMN_NAME
, PK
, COLUMN_NAME
, DATA_TYPE || '( ' || NVL (DATA_TYPE_2, DATA_LENGTH) || ' )' DATA_TYPE
, NULLABLE
, COMMENTS
FROM (SELECT A.TABLE_NAME
, A.COLUMN_ID
, B.POSITION PK
, A.COLUMN_NAME
, A.DATA_TYPE
, A.DATA_PRECISION
|| DECODE (A.DATA_SCALE, NULL, NULL, ',' || A.DATA_SCALE) DATA_TYPE_2
, A.DATA_LENGTH
, A.DATA_PRECISION
, A.DATA_SCALE
, A.NULLABLE
, A.COMMENTS
, ROW_NUMBER ()
OVER (PARTITION BY A.TABLE_NAME, A.COLUMN_ID
ORDER BY A.COLUMN_ID, B.POSITION) RN
FROM (SELECT COL.TABLE_NAME
, COL.COLUMN_ID
, COL.COLUMN_NAME
, COL.DATA_TYPE
, COL.DATA_LENGTH
, COL.DATA_PRECISION
, COL.DATA_SCALE
, COL.NULLABLE
, COM.COMMENTS
FROM USER_TAB_COLUMNS COL, USER_COL_COMMENTS COM
WHERE COL.COLUMN_NAME = COM.COLUMN_NAME
AND COL.TABLE_NAME = COM.TABLE_NAME
AND COM.TABLE_NAME LIKE :IN_TABLE_NAME || '%') A
, USER_CONS_COLUMNS B
WHERE B.TABLE_NAME(+) = A.TABLE_NAME
AND B.COLUMN_NAME(+) = A.COLUMN_NAME) X
WHERE X.RN = 1
ORDER BY X.TABLE_NAME, X.COLUMN_ID;
3.6 사용자별 오브젝트 수[편집]
- DBA_OBJECTS
SELECT OWNER AS "OWNER"
, SUM (DECODE (OBJECT_TYPE, 'TABLE', 1, 0)) AS "TABLE"
, SUM (DECODE (OBJECT_TYPE, 'INDEX', 1, 0)) AS "INDEX"
, SUM (DECODE (OBJECT_TYPE, 'SYNONYM', 1, 0)) AS "SYNONYMS"
, SUM (DECODE (OBJECT_TYPE, 'SEQUENCE', 1, 0)) AS "SEQUENCES"
, SUM (DECODE (OBJECT_TYPE, 'VIEW', 1, 0)) AS "VIEWS"
, SUM (DECODE (OBJECT_TYPE, 'CLUSTER', 1, 0)) AS "CLUSTERS"
, SUM (DECODE (OBJECT_TYPE, 'DATABASE LINK', 1, 0)) AS "DBLINKS"
, SUM (DECODE (OBJECT_TYPE, 'PACKAGE', 1, 0)) AS "PACKAGES"
, SUM (DECODE (OBJECT_TYPE, 'PACKAGE BODY', 1, 0)) AS "PACKAGE_BODY"
, SUM (DECODE (OBJECT_TYPE, 'PROCEDURE', 1, 0)) AS "PROCEDURES"
, SUM (DECODE (OBJECT_TYPE, 'FUNCTION', 1, 0)) AS "FUNCTION"
FROM DBA_OBJECTS
GROUP BY OWNER;
4 모니터링[편집]
4.1 연결되어 있는 OS 사용자 및 프로그램 조회[편집]
- V$SESSION
SELECT SID
, SERIAL#
, OSUSER
, SUBSTRB(USERNAME, 1, 10) AS USER_NAME
, SUBSTRB(PROGRAM, 1, 30) AS PROGRAM_NAME
, STATUS
, TO_CHAR(LOGON_TIME, 'YYYY/MM/DD HH:MI') AS LOGON_TIME
FROM V$SESSION WHERE TYPE!= ‘BACKGROUND’ AND STATUS = ‘ACTIVE’;
4.2 1시간 이상 유휴 상태인 세션[편집]
SELECT SID
, SERIAL#
, USERNAME
, TRUNC(LAST_CALL_ET / 3600, 2) || ' HR' LAST_CALL_ET
FROM V$SESSION
WHERE LAST_CALL_ET > 3600
AND USERNAME IS NOT NULL;
4.3 Active Session 중 Idle Time이 긴 작업[편집]
- V$SESSION
- V$PROCESS
SELECT VS.SID || ',' || VS.SERIAL# " SID"
, VP.SPID
, VS.MACHINE
, VS.PROGRAM
, VS.MODULE
, VS.STATUS
, TO_CHAR(VS.LOGON_TIME, 'MM/DD HH24:MI') LOGIN_TIME
, ROUND(VS.LAST_CALL_ET / 60) "IDLE"
FROM V$SESSION VS
, V$PROCESS VP
WHERE VS.STATUS = 'ACTIVE'
AND VS.SID NOT IN (1, 2, 3, 4, 5, 6, 7)
AND VS.PADDR = VP.ADDR
ORDER BY 8;
4.4 DBUser 별로 Session 정보를 조회[편집]
SELECT S.USERNAME
, S.SID
, S.SERIAL#
, P.SPID
, S.OSUSER
, S.MACHINE
, S.PROGRAM
, TO_CHAR(S.LOGON_TIME, 'MM/DD HH24:MI') "LOGON_TIME"
, ROUND(S.LAST_CALL_ET / 60) "IDLE"
FROM V$SESSION S
, V$PROCESS P
WHERE S.PADDR = P.ADDR AND S.USERNAME LIKE UPPER('&DBUSER%')
ORDER BY 9;
4.5 Session별 사용 명령어[편집]
- V$SESSION
- V$SESSTAT
- V$STATNAME
- V$PROCESS
SELECT SESS.SID
,SESS.SERIAL#
,SUBSTR(SESS.USERNAME, 1, 10) "USER NAME"
,SUBSTR(OSUSER, 1, 11) "OS USER"
,SUBSTR(SESS.MACHINE, 1, 15) "MACHINE NAME"
,STATUS
,UPPER(
DECODE(NVL(COMMAND, 0)
,0, '---'
,1, 'CREATE TABLE'
,2, 'INSERT -'
,3, 'SELECT -'
,4, 'CREATE CLUST'
,5, 'ALTER CLUST'
,6, 'UPDATE -'
,7, 'DELETE -'
,8, 'DROP -'
,9, 'CREATE INDEX'
,10, 'DROP INDEX'
,11, 'ALTER INDEX'
,12, 'DROP TABLE'
,13, 'CREATE SEQ'
,14, 'ALTER SEQ'
,15, 'ALTER TABLE'
,16, 'DROP SEQ'
,17, 'GRANT'
,18, 'REVOKE'
,19, 'CREATE SYN'
,20, 'DROP SYN'
,21, 'CREATE VIEW'
,22, 'DROP VIEW'
,23, 'VALIDATE IX'
,24, 'CREATE PROC'
,25, 'ALTER PROC'
,26, 'LOCK TABLE'
,27, 'NO OPERATION'
,28, 'RENAME'
,29, 'COMMENT'
,30, 'AUDIT'
,31, 'NOAUDIT'
,32, 'CREATE DBLINK'
,33, 'DROP DB LINK'
,34, 'CREATE DATABASE'
,35, 'ALTER DATABASE'
,36, 'CREATE RBS'
,37, 'ALTER RBS'
,38, 'DROP RBS'
,39, 'CREATE TABLESPACE'
,40, 'ALTER TABLESPACE'
,41, 'DROP TABLESPACE'
,42, 'ALTER SESSION'
,43, 'ALTER USER'
,44, 'COMMIT'
,45, 'ROLLBACK'
,47, 'PL/SQL EXEC'
,48, 'SET TRANSACTION'
,49, 'SWITCH LOG'
,50, 'EXPLAIN'
,51, 'CREATE USER'
,52, 'CREATE ROLE'
,53, 'DROP USER'
,54, 'DROP ROLE'
,55, 'SET ROLE'
,56, 'CREATE SCHEMA'
,58, 'ALTER TRACING'
,59, 'CREATE TRIGGER'
,61, 'DROP TRIGGER'
,62, 'ANALYZE TABLE'
,63, 'ANALYZE INDEX'
,69, 'DROP PROCEDURE'
,71, 'CREATE SNAP LOG'
,72, 'ALTER SNAP LOG'
,73, 'DROP SNAP LOG'
,74, 'CREATE SNAPSHOT'
,75, 'ALTER SNAPSHOT'
,76, 'DROP SNAPSHOT'
,85, 'TRUNCATE TABLE'
,88, 'ALTER VIEW'
,91, 'CREATE FUNCTION'
,92, 'ALTER FUNCTION'
,93, 'DROP FUNCTION'
,94, 'CREATE PACKAGE'
,95, 'ALTER PACKAGE'
,96, 'DROP PACKAGE'
,46, 'SAVEPOINT'
)
)
COMMAND
,SESS.PROCESS "C.PROC"
,PROC.SPID "S.PROC"
,TO_CHAR(SESS.LOGON_TIME, 'YYYY-MM-DD HH24:MI')
FROM V$SESSION SESS
, V$SESSTAT STAT
, V$STATNAME NAME
, V$PROCESS PROC
WHERE SESS.SID = STAT.SID AND STAT.STATISTIC# = NAME.STATISTIC# AND SESS.USERNAME IS NOT NULL AND NAME.NAME = 'RECURSIVE CALLS' AND SESS.PADDR = PROC.ADDR ORDER BY 3, 1, 2;
4.6 사용자 session 2시간 이상 idle 상태가 지속되는 session kill[편집]
- V$SESSION
- V$PROCESS
SET PAGESIZE 0 SPOOL KILLIDLE3.SQL
SELECT DISTINCT '!KILL -9 ' || B.SPID, 'ALTER SYSTEM KILL SESSION '''|| A.SID || ',' || A.SERIAL# || ''';'
FROM V$SESSION A
, V$PROCESS B
WHERE A.PADDR IN (SELECT S.PADDR
FROM V$SESSION S
WHERE STATUS = 'INACTIVE'
GROUP BY S.PADDR
HAVING MIN(ROUND(LAST_CALL_ET / 60)) > 120)
AND A.PADDR = B.ADDR
AND A.STATUS = 'INACTIVE';
SPOOL OFF
4.7 Oracle Process의 정보[편집]
- V$SESSION
- V$PROCESS
- SYS.V_$SESS_IO
SELECT S.STATUS "STATUS"
,S.SERIAL# "SERIAL#"
,S.TYPE "TYPE"
,S.USERNAME "DB USER"
,S.OSUSER "CLIENT USER"
,S.SERVER "SERVER"
,S.MACHINE "MACHINE"
,S.MODULE "MODULE"
,S.TERMINAL "TERMINAL"
,S.PROGRAM "PROGRAM"
,P.PROGRAM "O.S. PROGRAM"
,S.LOGON_TIME "CONNECT TIME"
,LOCKWAIT "LOCK WAIT"
,SI.PHYSICAL_READS "PHYSICAL READS"
,SI.BLOCK_GETS "BLOCK GETS"
,SI.CONSISTENT_GETS "CONSISTENT GETS"
,SI.BLOCK_CHANGES "BLOCK CHANGES"
,SI.CONSISTENT_CHANGES "CONSISTENT CHANGES"
,S.PROCESS "PROCESS"
,P.SPID
,P.PID
,S.SERIAL#
,SI.SID
,S.SQL_ADDRESS "ADDRESS"
,S.SQL_HASH_VALUE "SQL HASH"
,S.ACTION
FROM V$SESSION S
, V$PROCESS P
, SYS.V_$SESS_IO SI
WHERE S.PADDR = P.ADDR(+)
AND SI.SID(+) = S.SID
AND S.USERNAME IS NOT NULL
AND NVL(S.OSUSER, 'X') <> 'SYSTEM'
AND S.TYPE <> 'BACKGROUND'
ORDER BY 3;
4.8 오브젝트에 접속되어 있는 프로그램 조회[편집]
- V$SESSION
- V$ACCESS
SELECT SUBSTR(B.OBJECT, 1, 15) AS OBJECT, SUBSTR(A.PROGRAM, 1, 15) AS PROGRAM, COUNT(*) AS CNT
FROM V$SESSION A
,V$ACCESS B
WHERE A.SID = B.SID
AND B.OWNER NOT IN ('SYS')
AND A.TYPE!= 'BACKGROUND'
AND B.OBJECT LIKE UPPER('&OBJECT_NAME') || '%' GROUP BY B.OBJECT, SUBSTR(A.PROGRAM, 1, 15);
4.9 롤백 세그먼트 경합 조회[편집]
- V$ROLLSTAT
- V$ROLLNAME
SELECT NAME T0
, GETS T1 ,WAITS T2
, TO_CHAR(TRUNC(WAITS / GETS * 100, 2), 099.99) || '%' T3
, TO_CHAR(ROUND(RSSIZE / 1024)) T4
, SHRINKS T5
, EXTENDS T6
FROM V$ROLLSTAT
, V$ROLLNAME
WHERE V$ROLLSTAT.USN = V$ROLLNAME.USN;
4.10 CPU를 많이 사용하는 세션의 식별[편집]
- V$SESSTAT
- V$STATNAME
- V$SESSION
SELECT A.SID
, C.SERIAL#
, A.VALUE
, C.USERNAME
, C.STATUS
, C.PROGRAM
FROM V$SESSTAT A
, V$STATNAME B
, V$SESSION C
WHERE A.STATISTIC# = B.STATISTIC#
AND A.SID = C.SID
AND B.NAME = 'CPU used by this session'
AND A.VALUE > 0 ORDER BY A.VALUE DESC;
4.11 Disk Read 가 많은 SQL문 찾기[편집]
- V$SQLAREA
SELECT DISK_READS, SQL_TEXT
FROM V$SQLAREA
WHERE DISK_READS > 100
ORDER BY DISK_READS DESC;
4.12 Rollback Segment를 사용하고 있는 SQL문 조회[편집]
- V$ROLLNAME
- V$ROLLSTAT
- V$SESSION
- V$SQLTEXT
- V$TRANSACTION
SELECT A.NAME
, B.XACTS
, C.SID
, C.SERIAL#
, C.USERNAME
, D.SQL_TEXT
FROM V$ROLLNAME A
, V$ROLLSTAT B
, V$SESSION C
, V$SQLTEXT D
, V$TRANSACTION E
WHERE A.USN = B.USN
AND B.USN = E.XIDUSN
AND C.TADDR = E.ADDR
AND C.SQL_ADDRESS = D.ADDRESS
AND C.SQL_HASH_VALUE = D.HASH_VALUE
ORDER BY A.NAME, C.SID, D.PIECE;
4.13 오래도록 수행되는 Full Table Scan를 모니터링[편집]
- V$SESSION_LONGOPS
SELECT SID
, SERIAL#
, OPNAME
, TO_CHAR(START_TIME, 'HH24:MI:SS') AS "START"
, (SOFAR / TOTALWORK) * 100 AS "PERCENT_COMPLETE"
FROM V$SESSION_LONGOPS;
4.14 System 테이블스페이스에 비시스템 세그먼트 조회[편집]
- DBA_SEGMENTS
SELECT OWNER
, SEGMENT_NAME
, SEGMENT_TYPE
, TABLESPACE_NAME
FROM DBA_SEGMENTS
WHERE OWNER NOT IN ('SYS', 'SYSTEM')
AND TABLESPACE_NAME = 'SYSTEM';
4.15 인덱스의 Delete Space 조회[편집]
- INDEX_STATS
--Delete Space% 값이 20% 가 넘으면, 그 인덱스는 다시 작성하는 것이 좋다.
SELECT NAME
, LF_ROWS
, DEL_LF_ROWS
, (DEL_LF_ROWS / LF_ROWS) * 100 AS "DELETE SPACE%"
FROM INDEX_STATS WHERE NAME = UPPER('&INDEX_NAME');
4.16 딕셔너리/뷰 정보 조회[편집]
- DICTIONARY
- DICT_COLUMNS
SELECT A.TABLE_NAME
, B.COLUMN_NAME
FROM DICTIONARY A
, DICT_COLUMNS B
WHERE A.TABLE_NAME = B.TABLE_NAME;
4.17 유저의 모든 세션 트레이스[편집]
--- CREATE THE BELOW TRIGGER TO ENABLE TRACE ALL SESSION OF USER ( SCOTT)
CREATE OR REPLACE TRIGGER USER_TRACE_TRG
AFTER LOGON ON DATABASE
BEGIN
IF USER = 'SCOTT'
THEN
execute immediate 'alter session set events ''10046 trace name context forever, level 12''';
END IF;
EXCEPTION
WHEN OTHERS THEN
NULL;
END;
/
4.18 커셔 내부 SQL의 상세내용 보기[편집]
select module,parsing_schema_name,inst_id,sql_id,plan_hash_value,child_number,sql_fulltext,
to_char(last_active_time,'DD/MM/YY HH24:MI:SS' ),sql_plan_baseline,executions,
elapsed_time/executions/1000/1000,rows_processed from gv$sql
where sql_id in ('&sql_id');
4.19 커셔 내부 sql쿼리 Flush[편집]
-- First get the address, hash_value of the sql_id
select ADDRESS, HASH_VALUE from V$SQLAREA where SQL_ID like '5qd8a442c328k';
ADDRESS HASH_VALUE
--------------- ------------
C000007067F39FF0 4000666812
-- Now flush the query
SQL> exec DBMS_SHARED_POOL.PURGE ('C000007067F39FF0, 4000666812', 'C');
Note : For RAC, same need to be executed on all the nodes .
4.20 sql_id 의 바인드변수 값 조회[편집]
SELECT
sql_id,
b. LAST_CAPTURED,
t.sql_text sql_text,
b.HASH_VALUE,
b.name bind_name,
b.value_string bind_value
FROM
gv$sql t
JOIN
gv$sql_bind_capture b using (sql_id)
WHERE
b.value_string is not null
AND
sql_id='&sqlid'
/
4.21 현재 실행 중인 세션의 SQL 조회[편집]
select sesion.sid,
sesion.username,
optimizer_mode,
hash_value,
address,
cpu_time,
elapsed_time,
sql_text
from v$sqlarea sqlarea, v$session sesion
where sesion.sql_hash_value = sqlarea.hash_value
and sesion.sql_address = sqlarea.address
and sesion.username is not null;
4.22 ACTIVE 세션 정보 조회[편집]
set echo off
set linesize 95
set head on
set feedback on
col sid head "Sid" form 9999 trunc
col serial# form 99999 trunc head "Ser#"
col username form a8 trunc
col osuser form a7 trunc
col machine form a20 trunc head "Client|Machine"
col program form a15 trunc head "Client|Program"
col login form a11
col "last call" form 9999999 trunc head "Last Call|In Secs"
col status form a6 trunc
select sid,serial#,substr(username,1,10) username,substr(osuser,1,10) osuser
, substr(program||module,1,15) program,substr(machine,1,22) machine
, to_char(logon_time,'ddMon hh24:mi') login
, last_call_et "last call",status
from gv$session
where status='ACTIVE'
order by 1
/
4.23 DB 대기이벤트 조회[편집]
select a.sid,substr(b.username,1,10) username,substr(b.osuser,1,10) osuser
, substr(b.program||b.module,1,15) program
, substr(b.machine,1,22) machine
, a.event
, a.p1,b.sql_hash_value
from v$session_wait a
, V$session b
where b.sid=a.sid
and a.event not in('SQL*Net message from client','SQL*Net message to client',
'smon timer','pmon timer')
and username is not null
order by 6
/
4.24 세션의 템프 사용량 조회[편집]
SELECT b.tablespace
, ROUND(((b.blocks*p.value)/1024/1024),2)||'M' AS temp_size
, a.inst_id as Instance
, a.sid||','||a.serial# AS sid_serial
, NVL(a.username, '(oracle)') AS username
, a.program , a.status , a.sql_id
FROM gv$session a
, gv$sort_usage b
, gv$parameter p
WHERE p.name = 'db_block_size'
AND a.saddr = b.session_addr
AND a.inst_id=b.inst_id
AND a.inst_id=p.inst_id
ORDER BY temp_size desc
/
4.25 현재 트랜잭션 조회[편집]
col name format a10
col username format a8
col osuser format a8
col start_time format a17
col status format a12
tti 'Active transactions'
select s.sid,username,t.start_time, r.name, t.used_ublk "USED BLKS",
decode(t.space, 'YES', 'SPACE TX',
decode(t.recursive, 'YES', 'RECURSIVE TX',
decode(t.noundo, 'YES', 'NO UNDO TX', t.status)
)) status
from sys.v_$transaction t, sys.v_$rollname r, sys.v_$session s
where t.xidusn = r.usn
and t.ses_addr = s.saddr
/
4.26 리스너 트레이스[편집]
- Set to the listener you want to trace
LSNRCTL> set cur LISTENER_TEST
-- Enable Trace:
LSNRCTL> set trc_level ADMIN
Connecting to (DESCRIPTION=(ADDRESS=(PROTOCOL=IPC)(KEY=LISTENER_TEST)))
LISTENER_TEST parameter "trc_level" set to admin
The command completed successfully
4.27 세션의 PGA 사용량[편집]
set lines 2000
SELECT SID, b.NAME, ROUND(a.VALUE/(1024*1024),2) MB FROM
v$sesstat a, v$statname b
WHERE (NAME LIKE '%session uga memory%' OR NAME LIKE '%session pga memory%')
AND a.statistic# = b.statistic# order by ROUND(a.VALUE/(1024*1024),2) desc
4.28 현재 SGA 사용량[편집]
select round(used.bytes /1024/1024 ,2) used_mb
, round(free.bytes /1024/1024 ,2) free_mb
, round(tot.bytes /1024/1024 ,2) total_mb
from (select sum(bytes) bytes
from v$sgastat
where name != 'free memory') used
, (select sum(bytes) bytes
from v$sgastat
where name = 'free memory') free
, (select sum(bytes) bytes
from v$sgastat) tot
4.29 physical read가 높은 세그먼트 조회[편집]
set pagesize 200
setlinesize 120
col segment_name format a20
col owner format a10
select segment_name,object_type,total_physical_reads
from ( select owner||'.'||object_name as segment_name,object_type,
value as total_physical_reads
from v$segment_statistics
where statistic_name in ('physical reads')
order by total_physical_reads desc)
where rownum <=10;
4.30 템프 파일별 I/O 사용량[편집]
SELECT SUBSTR(t.name,1,50) AS file_name,
f.phyblkrd AS blocks_read,
f.phyblkwrt AS blocks_written,
f.phyblkrd + f.phyblkwrt AS total_io
FROM v$tempstat f,v$tempfile t
WHERE t.file# = f.file#
ORDER BY f.phyblkrd + f.phyblkwrt DESC;
select * from (SELECT u.tablespace, s.username, s.sid, s.serial#, s.logon_time, program, u.extents, ((u.blocks*8)/1024) as MB,
i.inst_id,i.host_name
FROM gv$session s, gv$sort_usage u ,gv$instance i
WHERE s.saddr=u.session_addr and u.inst_id=i.inst_id order by MB DESC) a where rownum<10;
4.31 [ash] TOP 쿼리[편집]
Query to get list of top running sqls in PAST between sysdate-1 to sysdate-23/34 . You can change accordingly
SELECT active_session_history.user_id,
dba_users.username,
sqlarea.sql_text,
SUM(active_session_history.wait_time +
active_session_history.time_waited)/1000000 ttl_wait_time_in_seconds
FROM v$active_session_history active_session_history,
v$sqlarea sqlarea,
dba_users
WHERE active_session_history.sample_time BETWEEN SYSDATE - 1 AND SYSDATE-23/24
AND active_session_history.sql_id = sqlarea.sql_id
AND active_session_history.user_id = dba_users.user_id
and dba_users.username not in ('SYS','DBSNMP')
GROUP BY active_session_history.user_id,sqlarea.sql_text, dba_users.username
ORDER BY 4 DESC
4.32 [ash] 블로킹 세션 찾기[편집]
Query will list the blocking session details between SYSDATE - 1 AND SYSDATE-23/24 ( PAST)
set pagesize 50
set linesize 120
col sql_id format a15
col inst_id format '9'
col sql_text format a50
col module format a10
col blocker_ses format '999999'
col blocker_ser format '999999'
SELECT distinct
a.sql_id ,
a.inst_id,
a.blocking_session blocker_ses,
a.blocking_session_serial# blocker_ser,
a.user_id,
s.sql_text,
a.module,a.sample_time
FROM GV$ACTIVE_SESSION_HISTORY a,
gv$sql s
where a.sql_id=s.sql_id
and blocking_session is not null
and a.user_id <> 0 -- exclude SYS user
and a.sample_time BETWEEN SYSDATE - 1 AND SYSDATE-23/24
4.33 cpu 과사용 세션[편집]
col program form a30 heading "Program"
col CPUMins form 99990 heading "CPU in Mins"
select rownum as rank, a.*
from (
SELECT v.sid, program, v.value / (100 * 60) CPUMins
FROM v$statname s , v$sesstat v, v$session sess
WHERE s.name = 'CPU used by this session'
and sess.sid = v.sid
and v.statistic#=s.statistic#
and v.value>0
ORDER BY v.value DESC) a
where rownum < 11;
4.34 라이브러리 캐시 락을 잡는 세션[편집]
For standalone db:
select sid Waiter, p1raw,
substr(rawtohex(p1),1,30) Handle,
substr(rawtohex(p2),1,30) Pin_addr
from v$session_wait where wait_time=0 and event like '%library cache%';
For RAC DB:
select a.sid Waiter,b.SERIAL#,a.event,a.p1raw,
substr(rawtohex(a.p1),1,30) Handle,
substr(rawtohex(a.p2),1,30) Pin_addr
from v$session_wait a,v$session b where a.sid=b.sid
and a.wait_time=0 and a.event like 'library cache%';
or
set lines 152
col sid for a9999999999999
col name for a40
select a.sid,b.name,a.value,b.class
from gv$sesstat a , gv$statname b
where a.statistic#=b.statistic#
and name like '%library cache%';
4.35 라이브러리 캐시에 의해 락이 발생된 세션[편집]
select to_char(SESSION_ID,'999') sid ,
substr(LOCK_TYPE,1,30) Type,
substr(lock_id1,1,23) Object_Name,
substr(mode_held,1,4) HELD, substr(mode_requested,1,4) REQ,
lock_id2 Lock_addr
from dba_lock_internal
where
mode_requested'None'
and mode_requestedmode_held
and session_id in ( select sid
from v$session_wait where wait_time=0
and event like '%library cache%') ;
4.36 유저가 엑세스 하는 오브젝트 조회[편집]
set lines 299
column object format a30
column owner format a10
select * from gv$access where owner='&OWNER' and object='&object_name' and
/
4.37 FULL TABLE SCAN 하는 SQL[편집]
select sql_id,object_owner,object_name from V$SQL_PLAN where
operation='TABLE ACCESS' and
options='FULL' and
object_owner not in ('SYS','SYSTEM','DBSNMP');
4.38 딕셔너리 캐시 히트율[편집]
select sum(gets) as "Gets", sum(getmisses) as "Misses",
(1-(sum(getmisses)/sum(gets)))*100 as "CACHE HIT RATIO"
from gv$rowcache;
NOTE - CACHE HIT RATIO SHOULD BE MORE THAN 95 PERCENT.
4.39 데이터베이스 뮤텍스 SLEEP[편집]
column mux format a18 heading 'Mutex Type' trunc;
column loc format a32 heading 'Location' trunc;
column sleeps format 9,999,999,990 heading 'Sleeps';
column wt format 9,999,990.9 heading 'Wait |Time (s)';
select e.mutex_type mux
, e.location loc
, e.sleeps - nvl(b.sleeps, 0) sleeps
, (e.wait_time - nvl(b.wait_time, 0))/1000000 wt
from DBA_HIST_MUTEX_SLEEP b
, DBA_HIST_MUTEX_SLEEP e
where b.snap_id(+) = &bid
and e.snap_id = &eid
and b.dbid(+) = e.dbid
and b.instance_number(+) = e.instance_number
and b.mutex_type(+) = e.mutex_type
and b.location(+) = e.location
and e.sleeps - nvl(b.sleeps, 0) > 0
order by e.wait_time - nvl(b.wait_time, 0) desc;
4.40 대량 Physical read를 유발하는 쿼리[편집]
SELECT schema, sql_text, disk_reads, round(cpu,2) FROM
(SELECT s.parsing_schema_name schema, t.sql_id, t.sql_text, t.disk_reads,
t.sorts, t.cpu_time/1000000 cpu, t.rows_processed, t.elapsed_time
FROM v$sqlstats t join v$sql s on(t.sql_id = s.sql_id)
WHERE parsing_schema_name = 'SCOTT'
ORDER BY disk_reads DESC)
WHERE rownum <= 5;
4.41 대량 리두를 발생시키는 세션 조회[편집]
set lines 2000
set pages 1000
col sid for 99999
col name for a09
col username for a14
col PROGRAM for a21
col MODULE for a25
select s.sid,sn.SERIAL#,n.name, round(value/1024/1024,2) redo_mb, sn.username,sn.status,substr (sn.program,1,21) "program", sn.type, sn.module,sn.sql_id
from v$sesstat s join v$statname n on n.statistic# = s.statistic#
join v$session sn on sn.sid = s.sid where n.name like 'redo size' and s.value!=0 order by
redo_mb desc;
4.42 언두를 발생시키는 세션 조회[편집]
select a.sid, a.serial#, a.username
, b.used_urec used_undo_record
, b.used_ublk used_undo_blocks
from v$session a
, v$transaction b
where a.saddr=b.ses_addr ;
4.43 latch contetion을 유발하는 쿼리[편집]
col OBJECT_NAME for a30
col owner for a12
with bh_lc as
(select
lc.addr, lc.child#, lc.gets, lc.misses, lc.immediate_gets, lc.immediate_misses,
lc.spin_gets, lc.sleeps,
bh.hladdr, bh.tch tch, bh.file#, bh.dbablk, bh.class, bh.state, bh.obj
from
v$session_wait sw,
v$latchname ld,
v$latch_children lc,
x$bh bh
where lc.addr =sw.p1raw
and sw.p2= ld.latch#
and ld.name='cache buffers chains'
and lower(sw.event) like '%latch%'
and bh.hladdr=lc.addr
)
select bh_lc.hladdr, bh_lc.tch, o.owner, o.object_name, o.object_type,
bh_lc.child#,
bh_lc.gets, bh_lc.misses, bh_lc.immediate_gets,
bh_lc.immediate_misses, spin_gets, sleeps
from
bh_lc, dba_objects o
where bh_lc.obj = o.data_object_id(+)
order by 1,2 desc;
4.44 래치 타입 과 hash value[편집]
Set lines 160 pages 100
Column event format A35
Column name format A35
select x.event, x.sql_hash_value,
case when x.event like 'latch%' then
l.name
else ' '
end name,
x.cnt from (
select substr(w.event, 1, 28) event, s.sql_hash_value, w.p2,count(*) cnt
from v$session_wait w, v$session s, v$process p
where s.sid=w.sid
and p.addr = s.paddr
and s.username is not null
and w.event not like '%pipe%'
and w.event not like 'SQL*%'
group by substr(w.event, 1, 28), sql_hash_value,w.p2
) x,
v$latch l
where
x.p2 = l.latch#(+)
order by cnt;
4.45 커서에서 추출한 sql id에 대한 sql tuning advisor[편집]
Create tuning task
set long 1000000000
DECLARE
l_sql_tune_task_id VARCHAR2(100);
BEGIN
l_sql_tune_task_id := DBMS_SQLTUNE.create_tuning_task (
sql_id => 'apwfwjhgc9sk8',
scope => DBMS_SQLTUNE.scope_comprehensive,
time_limit => 500,
task_name => 'apwfwjhgc9sk8_tuning_task_1',
description => 'Tuning task for statement apwfwjhgc9sk8');
DBMS_OUTPUT.put_line('l_sql_tune_task_id: ' || l_sql_tune_task_id);
END;
/
Execute tuning task
EXEC DBMS_SQLTUNE.execute_tuning_task(task_name => 'apwfwjhgc9sk8_tuning_task_1');
Generate report
SET LONG 10000000;
SET PAGESIZE 100000000
SET LINESIZE 200
SELECT DBMS_SQLTUNE.report_tuning_task('apwfwjhgc9sk8_tuning_task_1') AS recommendations FROM dual;
SET PAGESIZE 24
4.46 SGA 타겟 advisor[편집]
- STATISTICS_LEVEL should be TYPICAL/ALL.
SQL> show parameter statistics_level
NAME TYPE VALUE
------------------------------------ -------------------------------- --------------------------
statistics_level string TYPICAL
select * from v$sga_target_advice order by sga_size;
4.47 쉐어드풀 advisor[편집]
SELECT shared_pool_size_for_estimate "Size of Shared Pool in MB",
shared_pool_size_factor "Size Factor",
estd_lc_time_saved "Time Saved in sec" FROM v$shared_pool_advice;
4.48 쉐어드풀 flush를 유발하는 오브젝트[편집]
Set lines 160 pages 100
Select * from x$ksmlru order by ksmlrnum;
4.49 ADDM 리포트 생성[편집]
cd $ORACLE_HOME/rdbms/admin
SQL> @addmrpt.sql
Specify the Begin and End Snapshot Ids
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Enter value for begin_snap: 1058
Begin Snapshot Id specified: 1058
Enter value for end_snap: 1059
End Snapshot Id specified: 1059
5 프로시져/패키지[편집]
5.1 패키지 검색 1 - 특정 오라클 사용자 중에서 패키지 소스와 일치하는 텍스트를 조회[편집]
-- 오라클 사용자에서 사용하는 패키지를 보여는 방법
----
:IN_OWNER: 오라클 사용자
----
:IN_OBJECT_NAME: 패키지 이름
SELECT OBJECT_NAME
FROM DBA_OBJECTS
WHERE OWNER =:IN_OWNER
AND OBJECT_NAME LIKE '%' ||:IN_OBJECT_NAME || '%'
AND OBJECT_TYPE = 'PACKAGE';
-- 오라클 사용자의 패키지 중에서 텍스트 내용을 검색하여 패키지 정보를 추출
- IN_OWNER: 오라클 사용자
- IN_TEXT : 패키지소 스에서 검색할 텍스트
SELECT NAME -- 패키지 이름 , LINE -- 라인 수 , TEXT -- 패키지 BODY에 수정된 내용 FROM DBA_SOURCE WHERE OWNER =:IN_OWNER AND TEXT LIKE '%' ||:IN_TEXT || '%';
5.2 특정 사용자의 패키지 내에서 주석처리가 되지 않은 항목을 조회[편집]
/*
오라클 사용자가 사용하는 패키지의 BODY 소스를 검색하여 주식이 없거나 패턴이 맞지 않는 항목을 조회 한다.
- /
SELECT * FROM DBA_OBJECTS B WHERE B.OWNER =:IN_OWNER AND B.OBJECT_TYPE = 'PACKAGE BODY' AND B.STATUS <> 'INVALID' -- VALID 상태만 조회, 만약 INVALID 된다고 해도 패키지를 수행하는 순간 컴파일 됨. AND NOT EXISTS
(SELECT 1
FROM DBA_SOURCE A
WHERE A.OWNER = B.OWNER
AND A.TYPE = B.OBJECT_TYPE
AND A.NAME = B.OBJECT_NAME
AND A.LINE <= 5
AND A.TEXT LIKE '%NAME%');
5.3 다중 UPDATE 쿼리[편집]
/*
BYPASS_UJVC 힌트를 이용하면 특정 뷰를 만들어서 컬럼 대 컬럼을 대입 할 수 있습니다.
아래 쿼리는 메타정보관리용 유저로서 코멘트의 내용 중에서 정규표현식을 이용하여 관련 데이터를 조작 하는 방법 입니다.
*/
UPDATE /*+ BYPASS_UJVC */
( SELECT X.*
,CASE
WHEN UNIT_INSTR > 0 THEN SUBSTR(X.COLUMN_DESC, X.UNIT_INSTR + 3, 1)
END
B_UNIT
FROM (SELECT A.SERVER
,A.OWNER
,A.TABLE_NAME
,A.COLUMN_NAME
,A.COLUMN_DESC
,A.GRP_CD A_GRP_CD
,A.UNIT A_UNIT
,REGEXP_INSTR(COLUMN_DESC, '단위\:') UNIT_INSTR FROM DBA_MYCOL A WHERE A.SERVER =:IN_SERVER AND A.OWNER =:IN_OWNER
AND A.TABLE_NAME =:IN_TABLE_NAME) X)
SET A_UNIT = B_UNIT
UPDATE_DT = SYSDATE;
5.4 CPU를 많이 사용하는 세션의 식별(SQL TEXT 조회)[편집]
SELECT A.*
,(SELECT SS.SQL_TEXT
FROM V$SQLAREA SS
WHERE SS.ADDRESS = A.SQL_ADDRESS
AND ROWNUM <= 1
) AS SQL_TEST
FROM (
SELECT A.SID
,C.SERIAL#
,A.VALUE
,C.USERNAME
,C.STATUS
,C.PROGRAM
,C.SQL_ADDRESS
,ROW_NUMBER() OVER (ORDER BY A.VALUE DESC) RN
FROM V$SESSTAT A
,V$STATNAME B
,V$SESSION C
WHERE A.STATISTIC# = B.STATISTIC#
AND A.SID = C.SID
AND B.NAME = 'CPU used by this session'
AND A.VALUE > 0
AND C.STATUS = 'ACTIVE'
AND C.USERNAME IS NOT NULL
) A
WHERE A.RN <= 10;
5.5 현재 세션에서 10초이상 걸리는 쿼리 조회 (SELECT절)[편집]
SELECT ABS(SYSDATE - A.LAST_LOAD_TIME) * 24 * 60 * 60 AS SEC_TIEM, A.*
FROM V$SQLAREA A
, V$SESSION B
WHERE A.SQL_TEXT LIKE '%SELECT%'
AND A.ADDRESS = B.SQL_ADDRESS
AND B.STATUS = 'ACTIVE'
AND A.ELAPSED_TIME >= 10 * 1000000 -- 실행계획에서 10초 이상 걸리는 쿼리를 조회(실제 걸리는 시간은 아님.)
AND A.PARSING_SCHEMA_NAME NOT IN ('SYS', 'SYSTEM', 'SYSMAN')
AND B.USERNAME IS NOT NULL;
5.6 현재 세션에서 PGA, UGA, CPU 사용량 세션별로 조회하는 쿼리[편집]
SELECT B.USERNAME
,A.SID
,A.PGA_USAGE
,A.UGA_USAGE
,A.CPU_USAGE_SECONDS
,B.MACHINE
,B.PROGRAM
,B.MODULE
FROM (SELECT B.SID
,MAX(DECODE(C.NAME, 'session pga memory', TRUNC(B.VALUE / 1024 / 1024) || 'MB', 0)) AS PGA_USAGE
,MAX(DECODE(C.NAME, 'session uga memory', TRUNC(B.VALUE / 1024 / 1024) || 'MB', 0)) AS UGA_USAGE
,MAX(DECODE(C.NAME, 'CPU used by this session', (B.VALUE / 100) || ' Sec', 0)) AS CPU_USAGE_SECONDS
FROM V$SESSTAT B
,V$STATNAME C
WHERE B.STATISTIC# = C.STATISTIC#
GROUP BY B.SID) A
,V$SESSION B
WHERE B.SID = A.SID AND B.STATUS = 'ACTIVE' AND B.USERNAME IS NOT NULL;
5.7 상호 DB간에 컬럼 이름 비교[편집]
/*
양쪽 DB에서 사용하는 테이블 중에서 컬럼 이름 다른 항목을 찾는다.
*/
SELECT A.TABLE_NAME
,A.COLUMN_NAME
,A.COLUMN_ID
,A.DATA_TYPE || '(' || A.DATA_LENGTH || ')' DATA_TYPE
FROM USER_TAB_COLUMNS@LINK_ESTDB A WHERE A.TABLE_NAME =:IN_TABLE_NAME AND NOT EXISTS
(SELECT 'X'
FROM USER_TAB_COLUMNS B
WHERE B.TABLE_NAME = A.TABLE_NAME
AND B.COLUMN_NAME = A.COLUMN_NAME);
SELECT A.TABLE_NAME, A.COLUMN_NAME, A.COLUMN_ID
FROM USER_TAB_COLUMNS@LINK_ESTDB A
WHERE A.TABLE_NAME =:IN_TABLE_NAME
MINUS
SELECT A.TABLE_NAME, A.COLUMN_NAME, A.COLUMN_ID
FROM USER_TAB_COLUMNS A
WHERE A.TABLE_NAME =:IN_TABLE_NAME
5.8 DB Link 보기[편집]
SELECT SUBSTRB (U.NAME, 1, 10) AS OWNER
, SUBSTRB (L.NAME, 1, 20) AS DB_LINK
, SUBSTRB (L.HOST, 1, 10) AS HOST
, SUBSTRB (L.USERID || '/' || L.PASSWORD, 1, 15) AS USERPASS
FROM SYS.LINK$ L, SYS.USER$ U
WHERE L.OWNER# = U.USER#;
5.9 View의 정의 내역 보기[편집]
SET LONG 100000
SELECT TEXT FROM USER_VIEWS WHERE VIEW_NAME LIKE UPPER('&뷰_이름');
5.10 동일(중복) 자료 삭제 방법[편집]
- ROW_NUMBER() 이용
DELETE FROM 테이블명
WHERE ROWID IN (
SELECT ROWID
FROM (
SELECT *
FROM (
SELECT ROW_NUMBER() OVER(PARTITION BY 컬럼명 ORDER BY 컬럼명) AS num
FROM 테이블명
)
WHERE num > 1 -- num의 값이 1초과인 데이터들만 삭제
)
);
- MIN(ROWID) 보다 큰건은 삭제(신규 추가된건 삭제)
DELETE FROM 테이블명 A
WHERE ROWID > (SELECT MIN(ROWID) FROM 테이블명 B
WHERE A.컬럼 = B.컬럼
);
- MAX(ROWID) 보다 작은건 삭제 (처음 추가된건 제)
DELETE FROM 테이블명 A
WHERE ROWID < (SELECT MAX(ROWID) FROM 테이블명 B
WHERE A.컬럼 = B.컬럼);
5.11 데이터베이스 시작/종료 관리 명령[편집]
5.12 svrctl 명령어[편집]
5.12.1 DB 시작 / 종료[편집]
5.12.1.1 DB start[편집]
emoji_objects SYNTAX - START DB
srvctl start database -d db_name [-o start_options] where start_option is nomount/mount/open(default)
srvctl start database -d PRODB -o nomount
srvctl start database -d PRODB -o mount
srvctl start database -d PRODB -o open
5.12.1.2 DB stop[편집]
emoji_objects SYNTAX - STOP DB
srvctl stop database -d db_name [-o stop_options] where stop_options is normal/immediate(default)/transactional/abort
srvctl stop database -d PRODB -o normal
srvctl stop database -d PRODB -o immediate
srvctl stop database -d PRODB -o transactional
srvctl stop database -d PRODB -o abort
5.12.1.3 DB remove[편집]
emoji_objects SYNTAX - REMOVE DB SERVICE
srvctl remove database -d db_unique_name [-f] [-y] [-v]
srvctl remove database -d PRODB -f -y
5.12.1.4 DB add[편집]
emoji_objects SYNTAX - ADDING DB SERVICE
srvctl add database -d db_unique_name -o ORACLE_HOME [-p spfile]
srvctl add database -d PRODB -o /u01/app/oracle/product/12.1.0.2/dbhome_1 -p +DATA/PRODDB/parameterfile/spfilePRODB.ora
5.12.2 DB 인스턴스 추가 / 제거[편집]
5.12.2.1 DB 인스턴스 remove[편집]
emoji_objects SYNTAX - REMOVING INSTANCE
srvctl remove instance -d DB_UNIQUE_NAME -i INSTANCE_NAME
srvctl remove instance -d PRODB - I PRODB1
5.12.2.2 DB 인스턴스 add[편집]
emoji_objects SYNTAX - ADDING INSTANCE
srvctl add instance –d db_unique_name –i inst_name -n node_name
srvctl add instance -d PRODB - i PRODB1 -n rachost1
5.12.2.3 DB 인스턴스 stop[편집]
emoji_objects SYNTAX - STOPPING INSTANCE
srvctl stop instance -d db_unique_name [-i "instance_name_list"]} [-o stop_options] [-f]
srvctl stop instance -d PRODB -i PRODB1
5.12.2.4 DB 인스턴스 start[편집]
emoji_objects SYNTAX - STARTING INSTANCE
srvctl start instance -d db_unique_name [-i "instance_name_list"} [-o start_options]
srvctl start instance -d PRODB -i PRODB1
5.12.3 데이터베이스/인스턴스 ENABLE 과 DISABLE[편집]
-- ENABLE - Reenables management by Oracle Restart for a component.
-- DISABLE - Disables management by Oracle Restart for a component.
srvctl enable instance -d DB_UNIQUE_NAME-i INSTANCE_NAME
srvctl disable instance -d DB_UNIQUE_NAME-i INSTANCE_NAME
srvctl enable database -d DB_UNIQUE_NAME
srvctl disable database -d DB_UNIQUE_NAME
5.12.4 서비스 리로케이트(relocate)[편집]
emoji_objects SYNTAX - RELOCATE
srvctl relocate service -d {database_name} -s {service_name} -i {old_inst_name} -r {new_inst_name}
- EXAMPLE:(Relocating service PRDB_SRV from PREDB2 to PREDB1)
srvctl relocate service -d PREDB -s PRDB_SVC -i PREDB2 -t PREDB1
-- Check the status of service
srvctl status service -d PREDB -s PRDB_SVC
5.12.5 서비스 START / STOP[편집]
emoji_objects SYNTAX - START/STOP SERVICE
srvctl start service -d {DB_NAME} -s {SERVICE_NAME}
srvctl stop service -d {DB_NAME} -s {SERVICE_NAME}
- EXAMPLE:
srvctl start service -d PREDB -s PRDB_SRV
srvctl stop service -d PREDB -s PRDB_SRV
5.12.6 서비스 ADD/ REMOVE[편집]
5.12.6.1 서비스 ADD[편집]
emoji_objects SYNTAX - ADDING A SERVICE
srvctl add service -d {DB_NAME} -s {SERVICE_NAME} -r {"preferred_list"} -a {"available_list"} [-P {BASIC | NONE | PRECONNECT}]
- EXAMPLE:
srvctl add service -d PREDB -s PRDB_SRV -r "PREDB1,PREDB2" -a "PREDB2" -P BASIC
5.12.6.2 서비스 REMOVE[편집]
emoji_objects SYNTAX - REMOVING A SERVICE
srvctl remove service -d {DB_NAME} -s {SERVICE_NAME}
- EXAMPLE:
srvctl remove service -d PREDB -s PRDB_SRV
5.12.7 환경변수(setenv) 설정[편집]
-- setenv to set env variables.(ORCL is the db_unique_name)
srvctl setenv database -db ORCL -env "ORACLE_HOME=/oracle/app/oracle/product/12.1.0.2/dbhome_1"
srvctl setenv database -db ORCL -env "TNS_ADMIN=/oracle/app/oracle/product/12.1.0.2/dbhome_1/network/admin"
-- getenv to view the env setting:
srvctl getenv database -db ORCL
5.12.8 ASM CONFIG 조회[편집]
srvctl config asm
srvctl config asm -detail
5.13 crsctl 명령어[편집]
- oracle docs
5.13.1 crs autorestart Enable/Disable[편집]
- Run as root user
$GRID_HOME/bin/crsctl enable crs
CRS-4622: Oracle High Availability Services autostart is enabled.
$GRID_HOME/bin/crsctl disable crs
CRS-4621: Oracle High Availability Services autostart is disabled.
5.13.2 crs Stop/Start[편집]
-- stop crs ( run from root)
$GRID_HOME/bin/crsctl stop crs
-- start crs( run from root)
$GRID_HOME/bin/crsctl start crs
5.13.3 RAC에서 클러스터 명 찾기[편집]
$GRID_HOME/bin/cemutlo -n
-- or
$GRID_HOME/bin/olsnodes -c
5.13.4 voting disk 위치 조회[편집]
$GRID_HOME/bin/crsctl query css votedisk
5.13.5 OCR 위치 조회[편집]
$GRID_HOME/bin/ocrcheck
5.13.6 그리드 버전 조회[편집]
$GRID_HOME/bin/crsctl query crs softwareversion
5.13.7 클러스터 컴포넌트 상태 체크[편집]
$GRID_HOME/bin/crsctl stat res -t
$GRID_HOME/bin/crsctl check crs
$GRID_HOME/bin/crsctl check cssd
$GRID_HOME/bin/crsctl check crsd
$GRID_HOME/bin/crsctl check evmd
5.13.8 cluster_interconnect 상세조회[편집]
$GRID_HOME/bin/oifcfg getif
app-ipmp0 172.21.39.128 global public
loypredbib0 172.16.3.192 global cluster_interconnect
loypredbib1 172.16.4.0 global cluster_interconnect
select NAME,IP_ADDRESS from v$cluster_interconnects;
NAME IP_ADDRESS
--------------- ----------------
loypredbib0 172.16.3.193
loypredbib1 172.16.4.1
5.13.9 ocr /list 수동 백업[편집]
List down the backups of OCR
$GRID_HOME/bin/ocrconfig -showbackup
Take manual OCR backup
$GRID_HOME/bin/ocrconfig -manualbackup
5.13.10 Voting Disk를 새로운 DistGroup으로 이동하기[편집]
$GRID_HOME/bin/crsctl replace votedisk +NEW_DG
-- Check the status using below command
$GRID_HOME/bin/crsctl query css votedisk
5.13.11 디스크 타임아웃 조회[편집]
- Disk timeout from node to voting disk(disktimeout)
crsctl get css disktimeout
CRS-4678: Successful get disktimeout 200 for Cluster Synchronization Services.
- Network latency in the node interconnect (Misscount)
crsctl get css misscount
CRS-4678: Successful get misscount 30 for Cluster Synchronization Services.
5.13.12 olsnode를 이용한 node 정보 조회[편집]
-- List of nodes in the cluster
olsnodes
-- Nodes with node number
olsnodes -n
-- Node with vip
olsnodes -i
olsnodes -s -t
-- Leaf or Hub
olsnodes -a
-- Getting private ip details of the local node
olsnodes -l -p
-- Get cluster name
olsnodes -c
5.13.13 클러스터 환경설정 정보 조회[편집]
$ crsctl get cluster configuration
Name : dbaclass-cluster
Configuration : Cluster
Class : Standalone Cluster
Type : flex
The cluster is not extended.
--------------------------------------------------------------------------------
MEMBER CLUSTER INFORMATION
Name Version GUID Deployed Deconfigured
================================================================================
================================================================================
$ crsctl get node role status -all
Node 'hostnode1' active role is 'hub'
Node 'hostnode2' active role is 'hub'
5.13.14 RAC 인터페이스 정보조회[편집]
oifcfg iflist -p -n
backup0 172.21.56.0 PRIVATE 255.255.254.0
cdnet0 162.168.1.0 PRIVATE 255.255.255.0
cdnet0 169.254.0.0 PUBLIC 255.255.128.0
cdnet1 162.168.2.0 PRIVATE 255.255.255.0
cdnet1 169.254.128.0 PUBLIC 255.255.128.0
pap-ipmp0 172.20.179.128 PUBLIC 255.255.255.128
tan-ipmp0 172.20.128.0 PRIVATE 255.255.252.0
dppp0 162.168.224.0 PRIVATE 255.255.255.0
5.13.15 RAC - OLR(Oracle Local Registry)[편집]
- OLR(ORACLE LOCAL REGISTRY)
-- Get current OLR location:(run from root only)
$GRID_HOME/bin/ocrcheck -local
-- List the OLR backups:
$GRID_HOME/bin/ocrconfig -local -showbackup
-- Take manual OLR backup:
$GRID_HOME/bin/ocrconfig -local -manualbackup