隔离级别(isolation level)
l 隔离级别定义了事务与事务之间的隔离程度。
l 隔离级别与并发性是互为矛盾的:隔离程度越高,数据库的并发性越差;隔离程度越低,数据库的并发性越好。
l ANSI/ISO SQL92标准定义了一些数据库操作的隔离级别:
l 未提交读(read uncommitted)
l 提交读(read committed)
l 重复读(repeatable read)
l 序列化(serializable)
l 通过一些现象,可以反映出隔离级别的效果。这些现象有:
l 更新丢失(lost update):当系统允许两个事务同时更新同一数据是,发生更新丢失。
l 脏读(dirty read):当一个事务读取另一个事务尚未提交的修改时,产生脏读。
l 非重复读(nonrepeatable read):同一查询在同一事务中多次进行,由于其他提交事务所做的修改或删除,每次返回不同的结果集,此时发生非重复读。(Atransaction rereads data it has previously read and finds that anothercommitted transaction has modified or deleted the data. )
l 幻像(phantom read):同一查询在同一事务中多次进行,由于其他提交事务所做的插入操作,每次返回不同的结果集,此时发生幻像读。(Atransaction reexecutes a query returning a set of rows that satisfies asearch condition and finds that another committed transaction hasinserted additional rows that satisfy the condition. )
l 下面是隔离级别及其对应的可能出现或不可能出现的现象
|
Dirty Read |
NonRepeatable Read |
Phantom Read |
Read uncommitted |
Possible |
Possible |
Possible |
Read committed |
Not possible |
Possible |
Possible |
Repeatable read |
Not possible |
Not possible |
Possible |
Serializable |
Not possible |
Not possible |
Not possible |
ORACLE的隔离级别
l ORACLE提供了SQL92标准中的read committed和serializable,同时提供了非SQL92标准的read-only。
l read committed:
l 这是ORACLE缺省的事务隔离级别。
l 事务中的每一条语句都遵从语句级的读一致性。
l 保证不会脏读;但可能出现非重复读和幻像。
l serializable:
l 简单地说,serializable就是使事务看起来象是一个接着一个地顺序地执行。
l 仅仅能看见在本事务开始前由其它事务提交的更改和在本事务中所做的更改。
l 保证不会出现非重复读和幻像。
l Serializable隔离级别提供了read-only事务所提供的读一致性(事务级的读一致性),同时又允许DML操作。
l 如果有在serializable事务开始时未提交的事务在serializable事务结束之前修改了serializable事务将要修改的行并进行了提交,则serializable事务不会读到这些变更,因此发生无法序列化访问的错误。(换一种解释方法:只要在serializable事务开始到结束之间有其他事务对serializable事务要修改的东西进行了修改并提交了修改,则发生无法序列化访问的错误。)
l Ifa serializable transaction contains data manipulation language (DML)that attempts to update any resource that may have been updated in atransaction uncommitted at the start of the serializable transaction, (并且修改在后来被提交而没有回滚),then the DML statement fails. 返回的错误是ORA-08177: Cannot serialize access for this transaction。
l ORACLE在数据块中记录最近对数据行执行修改操作的N个事务的信息,目的是确定是否有在本事务开始时未提交的事务修改了本事务将要修改的行。具体见英文:Oraclepermits a serializable transaction to modify a data row only if it candetermine that prior changes to the row were made by transactions thathad committed when the serializable transaction began. To make thisdetermination efficiently, Oracle uses control information stored inthe data block that indicates which rows in the block contain committedand uncommitted changes. In a sense, the block contains a recenthistory of transactions that affected each row in the block. The amountof history that is retained is controlled by the INITRANS parameter ofCREATE TABLE and ALTER TABLE. Under some circumstances, Oracle may haveinsufficient history information to determine whether a row has beenupdated by a "too recent" transaction. This can occur when manytransactions concurrently modify the same data block, or do so in avery short period. You can avoid this situation by setting highervalues of INITRANS for tables that will experience many transactionsupdating the same blocks. Doing so will enable Oracle to allocatesufficient storage in each block to record the history of recenttransactions that accessed the block.
l The INITRANS Parameter:Oraclestores control information in each data block to manage access byconcurrent transactions. Therefore, if you set the transactionisolation level to serializable, you must use the ALTER TABLE commandto set INITRANS to at least 3. This parameter will cause Oracle toallocate sufficient storage in each block to record the history ofrecent transactions that accessed the block. Higher values should beused for tables that will undergo many transactions updating the sameblocks.
l read-only:
l 遵从事务级的读一致性,仅仅能看见在本事务开始前由其它事务提交的更改。
l 不允许在本事务中进行DML操作。
l read only是serializable的子集。它们都避免了非重复读和幻像。区别是在read only中是只读;而在serializable中可以进行DML操作。
l Export with CONSISTENT = Y sets the transaction to read-only.
l read committed和serializable的区别和联系:
l 事务1先于事务2开始,并保持未提交状态。事务2想要修改正被事务1修改的行。事务2等待。如果事务1回滚,则事务2(不论是read committed还是serializable方式)进行它想要做的修改。如果事务1提交,则当事务2是read committed方式时,进行它想要做的修改;当事务2是serializable方式时,失败并报错“Cannot serialize access”,因为事务2看不见事务1提交的修改,且事务2想在事务一修改的基础上再做修改。具体见英文:Bothread committed and serializable transactions use row-level locking, andboth will wait if they try to change a row updated by an uncommittedconcurrent transaction. The second transaction that tries to update agiven row waits for the other transaction to commit or roll back andrelease its lock. If that other transaction rolls back, the waitingtransaction (regardless of its isolation mode) can proceed to changethe previously locked row, as if the other transaction had not existed.However, if the other (blocking) transaction commits and releases itslocks, a read committed transaction proceeds with its intended update.A serializable transaction, however, fails with the error "Cannotserialize access", because the other transaction has committed a changethat was made since the serializable transaction began.
l read committed和serializable可以在ORACLE并行服务器中使用。
l 关于SET TRANSACTION READ WRITE:read write和read committed 应该是一样的。在读方面,它们都避免了脏读,但都无法实现重复读。虽然没有文档说明read write在写方面与read committed一致,但显然它在写的时候会加排他锁以避免更新丢失。在加锁的过程中,如果遇到待锁定资源无法锁定,应该是等待而不是放弃。这与read committed一致。
l 语句级的读一致性
l ORACLE保证语句级的读一致性,即一个语句所处理的数据集是在单一时间点上的数据集,这个时间点是这个语句开始的时间。
l 一个语句看不见在它开始执行后提交的修改。
l 对于DML语句,它看不见由自己所做的修改,即DML语句看见的是它本身开始执行以前存在的数据。
l 事务级的读一致性
l 事务级的读一致性保证了可重复读,并保证不会出现幻像。
l 设置隔离级别
l 设置一个事务的隔离级别
l SET TRANSACTION ISOLATION LEVEL READ COMMITTED;
l SET TRANSACTION ISOLATION LEVEL SERIALIZABLE;
l SET TRANSACTION READ ONLY;
l 设置增个会话的隔离级别
l ALTER SESSION SET ISOLATION_LEVEL SERIALIZABLE;
l ALTER SESSION SET ISOLATION_LEVEL READ COMMITTED;