• 关于V$OPEN_CURSOR


    在之前的一次讨论中,有同行指出V$OPEN_CURSOR中列出的不是OPEN CURSOR而是SESSION CACHED CURSOR,原因是在一次ORA-01000(maximum open cursors exceeded)事故中他没有从V$OPEN_CURSOR中找到大量的打开游标。 对于这个问题,我们可以利用JAVA程序做一个演示来说明,以下为JAVA代码:
    package javaapplication2;
    import java.util.logging.Level;
    import java.util.logging.Logger;
    import oracle.jdbc.*;
    import java.sql.*;
    
    public class Main {
    
        public static void main(String[] args) throws SQLException {
            try {
                Class.forName("oracle.jdbc.driver.OracleDriver");
            }catch(Exception e ){}
       Connection cnn1=DriverManager.getConnection("jdbc:oracle:thin:@localhost:1521:G11R2", "maclean", "maclean");
    
      // Connection m[]=new Connection[2000];
       Connection myconn=DriverManager.getConnection("jdbc:oracle:thin:@localhost:1521:G11R2", "maclean", "maclean");
    
        Statement stat1=myconn.createStatement();
       ResultSet rst1=stat1.executeQuery("select * from v$version");
       while(rst1.next())
       {
           System.out.println(rst1.getString(1));
       }
       rst1=stat1.executeQuery("select distinct sid from v$mystat");
    
       while (rst1.next()){
       System.out.println("MY SID IS "+rst1.getString(1));
            }
    
       PreparedStatement s[]=new PreparedStatement[2000];
       PreparedStatement p;
       //ResultSet r[]=new ResultSet[2000];
       int i=0;
       while(i<2000){
        //  m[i]=DriverManager.getConnection("jdbc:oracle:thin:@192.168.1.121:1521:G10R2", "maclean", "maclean");
          //s[i]=m[i].createStatement();
          //m[i].setAutoCommit(false);
          //s[i].execute("insert into testjava values(1)");
           p=myconn.prepareStatement("select /* FIND_ME_OPPO */ * from dual");
           p.execute();
    
                try {
                    Thread.sleep(200);
                } catch (InterruptedException ex) {
                    Logger.getLogger(Main.class.getName()).log(Level.SEVERE, null, ex);
                }
    
          i++;
          System.out.println(i+" cursor is ok !");
       }
       }
    }
    以上JAVA代码会打个一个数据库会话,并在循环中不断以prepareStatement对象执行SQL语句,且我们不使用close()方法关闭prepareStatement所打开的游标,实际上这是很多JDBC应用产生ORA-01000问题的主要原因,开发人员在使用prepareStatement时不知道要使用close()方法以回收OPEN CURSOR资源。 注意这里在使用JDBC API时的表现(可能是目前最流行应用形式)和PL/SQL中的游标是存在区别的,在PL/SQL使用close cursor语句并不会真正意义上关闭游标。出于性能的考量,PL/SQL中的游标将被缓存以备将来使用,同时Oracle会维护一张cursor的LRU列表,但如果当本会话的游标数量即将达到open_cursors参数所定义的上限数量时,老的游标将被真正意义上close,以便open后来者。
    The following is a technical explanation provided by Oracle Development:  The server caches cursors opened by the PL/SQL engine.  Each time a cursor is closed, it is really moved to an Least Recently Used (LRU) list of open cursors and left open.  This is done as a performance improvement by saving a 'round_trip' from Client to Server each time a cursor is opened.   Note that no optimization occurs.  In other words, the cursor caching code does not check to see if a particular query already has a cursor open; it simply creates another one.  This is done until OPEN_CURSORS is reached.  If you have OPEN_CURSORS cached as open, however, then if an identical query occurs, the server reuses the cached cursor.
    可以通过以下语句来了解系统中真正意义上的打开着的游标:
    select sum(a.value), b.name
    from v$sesstat a, v$statname b
    where a.statistic# = b.statistic#
    and b.name = 'opened cursors current'
    group by b.name;
    编译并尝试运行以上程序:
    compile:
    Created dir: C:\Users\Maclean Liu\Documents\NetBeansProjects\JavaApplication2\dist
    Copy libraries to C:\Users\Maclean Liu\Documents\NetBeansProjects\JavaApplication2\dist\lib.
    Building jar: C:\Users\Maclean Liu\Documents\NetBeansProjects\JavaApplication2\dist\JavaApplication2.jar
    To run this application from the command line without Ant, try:
    java -jar "C:\Users\Maclean Liu\Documents\NetBeansProjects\JavaApplication2\dist\JavaApplication2.jar"
    jar:
    成功生成(总时间:0 秒)
    
    java -jar "C:\Users\Maclean Liu\Documents\NetBeansProjects\JavaApplication2\dist\JavaApplication2.jar"
    MY SID IS 392
    1 cursor is ok !
    2 cursor is ok !
    ......................
    
    以上程序打开的会话为392,我们来观察392会话的CURSOR情况:
    
    SQL> select * from v$version;
    
    BANNER
    --------------------------------------------------------------------------------
    Oracle Database 11g Enterprise Edition Release 11.2.0.2.0 - 64bit Production
    PL/SQL Release 11.2.0.2.0 - Production
    CORE    11.2.0.2.0      Production
    TNS for Linux: Version 11.2.0.2.0 - Production
    NLSRTL Version 11.2.0.2.0 - Production
    
    SQL> select * from global_name;
    
    GLOBAL_NAME
    --------------------------------------------------------------------------------
    www.oracledatabase12g.com
    
    select sql_text, cursor_type, count(*)
      from v$open_cursor
     where sid = 392
     group by sql_text, cursor_type
     order by 3 desc
    /
    
    SQL_TEXT                                                     CURSOR_TYPE                                          COUNT(*)
    ------------------------------------------------------------ -------------------------------------------------- ----------
    select /* FIND_ME_OPPO */ * from dual                        OPEN                                                     1279
    select * from v$version                                      OPEN                                                        1
    select privilege# from sysauth$ where (grantee#=:1 or grante DICTIONARY LOOKUP CURSOR CACHED                             1
    select distinct sid from v$mystat                            OPEN                                                        1
    insert into sys.aud$( sessionid,entryid,statement,ntimestamp OPEN-RECURSIVE                                              1
    select /*+ connect_by_filtering */ privilege#,level from sys DICTIONARY LOOKUP CURSOR CACHED                             1
    
    可以看到"select /* FIND_ME_OPPO */ * from dual"语句在V$OPEN_CURSOR中存在1279条记录,
    且CURSOR TYPE均为OPEN
    注意V$OPEN_CURSOR视图中的CURSOR_TYPE列直到11g release 2中才出现,如果该列在9i/10g中就有的话那么可能就不会造成那么多misunderstand了,实际上V$OPEN_CURSOR中的记录来源于X$KGLLK:
    SQL> select view_definition
      2    from v$fixed_view_definition
      3   where view_name = 'GV$OPEN_CURSOR';
    
    VIEW_DEFINITION
    --------------------------------------------------------------------------------
    select inst_id,
           kgllkuse,
           kgllksnm,
           user_name,
           kglhdpar,
           kglnahsh,
           kgllksqlid,
           kglnaobj,
           kgllkest,
           decode(kgllkexc, 0, to_number(NULL), kgllkexc),
           kgllkctp                                              -- CURSOR_TYPE
      from x$kgllk
     where kglhdnsp = 0
       and kglhdpar != kgllkhdl
    
    KGLHDPAR!=KGLLKHDL 该条件排除了父游标,所以V$OPEN_CURSOR列出的均是child cursor
    KGLHDNSP ==> NAME SPACE =0 
    
    SQL> select distinct kgllkctp from X$kgllk;
    
    KGLLKCTP
    ----------------------------------------------------------------
    SESSION CURSOR CACHED
    PL/SQL CURSOR CACHED
    OPEN
    OPEN-RECURSIVE
    DICTIONARY LOOKUP CURSOR CACHED
    BUNDLE DICTIONARY LOOKUP CACHED
    以上是六种CURSOR_TYPE,可以看到SESSION CURSOR CACHED和PL/SQL CURSOR CACHED也在其中:
    SQL> select kgllkmod, kgllkctp, count(*)
      2    from X$KGLLK
      3   where KGLHDNSP = 0
      4   group by kgllkmod, kgllkctp;
    
      KGLLKMOD KGLLKCTP                                                           COUNT(*)
    ---------- ---------------------------------------------------------------- ----------
             1 SESSION CURSOR CACHED                                                    32
             1 DICTIONARY LOOKUP CURSOR CACHED                                          96
             1 OPEN-RECURSIVE                                                           42
             1 PL/SQL CURSOR CACHED                                                     19
             1 OPEN                                                                    216
    注意不管是何种CURSOR_TYPE,本质上都是child cursor上的library cache lock,KGLLKMOD=1即这些library cache lock的lock mode均是NULL,也就是breakable parse lock。
    Null (N): special for session persistency  Null locks are special and are only acquired on executable objects (child cursors, procedures, functions, and packages) A broken null lock means the meta-data has changed. Null locks are special. They are acquired on objects that are to be executed (child cursor, procedure, function, package, or type body) and they are used to maintain an interest on an object for a long period of time (session persistency), and to detect if the object becomes invalid. Null locks can be broken at any time. This is used as a mechanism to notify a session that an executable object is no longer valid. If a null lock is broken, and thus the object is invalidated, it is an indication to the user who was holding the null lock that the object needs to be recompiled. A Null lock is acquired during the parse phase of SQL statement execution and is held as long as the shared SQL area for that statement remains in the shared pool. A null lock does not prevent any DDL operation, and can be broken to allow conflicting DDL operations, hence the term breakable parse lock. A Null lock on an object is broken when there is an exclusive pin on the object. A null lock on a read-only object is broken where there is an exclusive pin on any of the parent objects it depends on.  
    因为CURSOR_TYPE(kgllkctp)列的出现我们在11.2中能够很方便地分辨OPEN CUROSR和SESSION CURSOR CACHED,但如果是在9i/10g/11gr1中则无法通过V$OPEN_CURSOR或X$KGLLK找出哪些是打开游标,另一些是会话缓存游标? 实际上Oracle Support在10g中已经意识到了这个问题,Metalink Note<Bug 7375227 - V$OPEN_CURSOR contains both open cursors and session cached cursors [ID 7375227.8]>说明了该问题:
    Bug 7375227  V$OPEN_CURSOR contains both open cursors and session cached cursors
     This note gives a brief overview of bug 7375227.
     The content was last updated on: 10-JUL-2009
     Click here for details of each of the sections below.
    Affects:
    
        Product (Component)	Oracle Server (Rdbms)
        Range of versions believed to be affected	Versions >= 10.2.0.1 but < 11.2
        Versions confirmed as being affected	
    
            10.2.0.3 
    
        Platforms affected	Generic (all / most platforms affected)
    
    Fixed:
    
        This issue is fixed in	
    
            11.2 (Future Release) 
    
    Symptoms:
    
    Related To:
        Code Improvement
        (None Specified)
        V$OPEN_CURSOR 
    
    Description
    
        View V$OPEN_CURSOR contains both open cursors and session cached cursors and
        before this fix there was no way to distinguish them.
        This fix adds new column CURSOR_TYPE to V$OPEN_CURSOR which distinguishes
        between open cursors and cursors in the session cache. 
    
        Values are:
         SYSTEM - recursive sql cursors
         PL/SQL - for open pl/sql cursors
         KNT CACHED, KKS CACHED, PL/SQL CACHED, KQD CACHED, KQD BUNDLE CACHED
         , KXCC CACHED - for cached cursors
    Cursor Sharing的相关诊断事件:
    [oracle@rh2 ~]$ oerr ora 10270
    10270, 00000, "Debug shared cursors"
    // *Cause: Enables debugging code in shared cursor management modules
    // *Action:
    
    alter session set events '10270 trace name context forever, level 10';
    
    [oracle@rh2 ~]$ oerr ora 10277
    10277, 00000, "Cursor sharing (or not) related event (used for testing)"
    // *Cause:
    // *Action:
    
     alter session set events '10277 trace name context forever, level 1';
    
    alter session set events  'immediate trace name library_cache level 10';
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  • 原文地址:https://www.cnblogs.com/macleanoracle/p/2967818.html
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