mysql
/*SESSION LEVEL*/ select @@tx_isolation; /*GLOBAL LEVEL*/ select @@global.tx_isolation; select 'SESSION' as scope,@@tx_isolation UNION select 'GLOBAL' as scope,@@global.tx_isolation; -- SESSION REPEATABLE-READ -- GLOBAL REPEATABLE-READ
java.sql;
Connection
/** * A constant indicating that transactions are not supported. */ int TRANSACTION_NONE = 0; /** * A constant indicating that * dirty reads, non-repeatable reads and phantom reads can occur. * This level allows a row changed by one transaction to be read * by another transaction before any changes in that row have been * committed (a "dirty read"). If any of the changes are rolled back, * the second transaction will have retrieved an invalid row. */ int TRANSACTION_READ_UNCOMMITTED = 1; /** * A constant indicating that * dirty reads are prevented; non-repeatable reads and phantom * reads can occur. This level only prohibits a transaction * from reading a row with uncommitted changes in it. */ int TRANSACTION_READ_COMMITTED = 2; /** * A constant indicating that * dirty reads and non-repeatable reads are prevented; phantom * reads can occur. This level prohibits a transaction from * reading a row with uncommitted changes in it, and it also * prohibits the situation where one transaction reads a row, * a second transaction alters the row, and the first transaction * rereads the row, getting different values the second time * (a "non-repeatable read"). */ int TRANSACTION_REPEATABLE_READ = 4; /** * A constant indicating that * dirty reads, non-repeatable reads and phantom reads are prevented. * This level includes the prohibitions in * <code>TRANSACTION_REPEATABLE_READ</code> and further prohibits the * situation where one transaction reads all rows that satisfy * a <code>WHERE</code> condition, a second transaction inserts a row that * satisfies that <code>WHERE</code> condition, and the first transaction * rereads for the same condition, retrieving the additional * "phantom" row in the second read. */ int TRANSACTION_SERIALIZABLE = 8; /** * Attempts to change the transaction isolation level for this * <code>Connection</code> object to the one given. * The constants defined in the interface <code>Connection</code> * are the possible transaction isolation levels. * <P> * <B>Note:</B> If this method is called during a transaction, the result * is implementation-defined. * * @param level one of the following <code>Connection</code> constants: * <code>Connection.TRANSACTION_READ_UNCOMMITTED</code>, * <code>Connection.TRANSACTION_READ_COMMITTED</code>, * <code>Connection.TRANSACTION_REPEATABLE_READ</code>, or * <code>Connection.TRANSACTION_SERIALIZABLE</code>. * (Note that <code>Connection.TRANSACTION_NONE</code> cannot be used * because it specifies that transactions are not supported.) * @exception SQLException if a database access error occurs, this * method is called on a closed connection * or the given parameter is not one of the <code>Connection</code> * constants * @see DatabaseMetaData#supportsTransactionIsolationLevel * @see #getTransactionIsolation */ void setTransactionIsolation(int level) throws SQLException; /** * Retrieves this <code>Connection</code> object's current * transaction isolation level. * * @return the current transaction isolation level, which will be one * of the following constants: * <code>Connection.TRANSACTION_READ_UNCOMMITTED</code>, * <code>Connection.TRANSACTION_READ_COMMITTED</code>, * <code>Connection.TRANSACTION_REPEATABLE_READ</code>, * <code>Connection.TRANSACTION_SERIALIZABLE</code>, or * <code>Connection.TRANSACTION_NONE</code>. * @exception SQLException if a database access error occurs * or this method is called on a closed connection * @see #setTransactionIsolation */ int getTransactionIsolation() throws SQLException;
org.springframework.transaction;
TransactionDefinitio/**
* Interface that defines Spring-compliant transaction properties.
* Based on the propagation behavior definitions analogous to EJB CMT attributes.
*
* <p>Note that isolation level and timeout settings will not get applied unless
* an actual new transaction gets started. As only {@link #PROPAGATION_REQUIRED},
* {@link #PROPAGATION_REQUIRES_NEW} and {@link #PROPAGATION_NESTED} can cause
* that, it usually doesn't make sense to specify those settings in other cases.
* Furthermore, be aware that not all transaction managers will support those
* advanced features and thus might throw corresponding exceptions when given
* non-default values.
*
* <p>The {@link #isReadOnly() read-only flag} applies to any transaction context,
* whether backed by an actual resource transaction or operating non-transactionally
* at the resource level. In the latter case, the flag will only apply to managed
* resources within the application, such as a Hibernate {@code Session}.
*
* @author Juergen Hoeller
* @since 08.05.2003
* @see PlatformTransactionManager#getTransaction(TransactionDefinition)
* @see org.springframework.transaction.support.DefaultTransactionDefinition
* @see org.springframework.transaction.interceptor.TransactionAttribute
*/
public interface TransactionDefinition {
/**
* Support a current transaction; create a new one if none exists.
* Analogous to the EJB transaction attribute of the same name.
* <p>This is typically the default setting of a transaction definition,
* and typically defines a transaction synchronization scope.
*/
int PROPAGATION_REQUIRED = 0;
/**
* Support a current transaction; execute non-transactionally if none exists.
* Analogous to the EJB transaction attribute of the same name.
* <p><b>NOTE:</b> For transaction managers with transaction synchronization,
* {@code PROPAGATION_SUPPORTS} is slightly different from no transaction
* at all, as it defines a transaction scope that synchronization might apply to.
* As a consequence, the same resources (a JDBC {@code Connection}, a
* Hibernate {@code Session}, etc) will be shared for the entire specified
* scope. Note that the exact behavior depends on the actual synchronization
* configuration of the transaction manager!
* <p>In general, use {@code PROPAGATION_SUPPORTS} with care! In particular, do
* not rely on {@code PROPAGATION_REQUIRED} or {@code PROPAGATION_REQUIRES_NEW}
* <i>within</i> a {@code PROPAGATION_SUPPORTS} scope (which may lead to
* synchronization conflicts at runtime). If such nesting is unavoidable, make sure
* to configure your transaction manager appropriately (typically switching to
* "synchronization on actual transaction").
* @see org.springframework.transaction.support.AbstractPlatformTransactionManager#setTransactionSynchronization
* @see org.springframework.transaction.support.AbstractPlatformTransactionManager#SYNCHRONIZATION_ON_ACTUAL_TRANSACTION
*/
int PROPAGATION_SUPPORTS = 1;
/**
* Support a current transaction; throw an exception if no current transaction
* exists. Analogous to the EJB transaction attribute of the same name.
* <p>Note that transaction synchronization within a {@code PROPAGATION_MANDATORY}
* scope will always be driven by the surrounding transaction.
*/
int PROPAGATION_MANDATORY = 2;
/**
* Create a new transaction, suspending the current transaction if one exists.
* Analogous to the EJB transaction attribute of the same name.
* <p><b>NOTE:</b> Actual transaction suspension will not work out-of-the-box
* on all transaction managers. This in particular applies to
* {@link org.springframework.transaction.jta.JtaTransactionManager},
* which requires the {@code javax.transaction.TransactionManager} to be
* made available it to it (which is server-specific in standard Java EE).
* <p>A {@code PROPAGATION_REQUIRES_NEW} scope always defines its own
* transaction synchronizations. Existing synchronizations will be suspended
* and resumed appropriately.
* @see org.springframework.transaction.jta.JtaTransactionManager#setTransactionManager
*/
int PROPAGATION_REQUIRES_NEW = 3;
/**
* Do not support a current transaction; rather always execute non-transactionally.
* Analogous to the EJB transaction attribute of the same name.
* <p><b>NOTE:</b> Actual transaction suspension will not work out-of-the-box
* on all transaction managers. This in particular applies to
* {@link org.springframework.transaction.jta.JtaTransactionManager},
* which requires the {@code javax.transaction.TransactionManager} to be
* made available it to it (which is server-specific in standard Java EE).
* <p>Note that transaction synchronization is <i>not</i> available within a
* {@code PROPAGATION_NOT_SUPPORTED} scope. Existing synchronizations
* will be suspended and resumed appropriately.
* @see org.springframework.transaction.jta.JtaTransactionManager#setTransactionManager
*/
int PROPAGATION_NOT_SUPPORTED = 4;
/**
* Do not support a current transaction; throw an exception if a current transaction
* exists. Analogous to the EJB transaction attribute of the same name.
* <p>Note that transaction synchronization is <i>not</i> available within a
* {@code PROPAGATION_NEVER} scope.
*/
int PROPAGATION_NEVER = 5;
/**
* Execute within a nested transaction if a current transaction exists,
* behave like {@link #PROPAGATION_REQUIRED} else. There is no analogous
* feature in EJB.
* <p><b>NOTE:</b> Actual creation of a nested transaction will only work on
* specific transaction managers. Out of the box, this only applies to the JDBC
* {@link org.springframework.jdbc.datasource.DataSourceTransactionManager}
* when working on a JDBC 3.0 driver. Some JTA providers might support
* nested transactions as well.
* @see org.springframework.jdbc.datasource.DataSourceTransactionManager
*/
int PROPAGATION_NESTED = 6;
/**
* Use the default timeout of the underlying transaction system,
* or none if timeouts are not supported.
*/
int TIMEOUT_DEFAULT = -1;
/**
* Return the propagation behavior.
* <p>Must return one of the {@code PROPAGATION_XXX} constants
* defined on {@link TransactionDefinition this interface}.
* @return the propagation behavior
* @see #PROPAGATION_REQUIRED
* @see org.springframework.transaction.support.TransactionSynchronizationManager#isActualTransactionActive()
*/
int getPropagationBehavior();
/**
* Return the isolation level.
* <p>Must return one of the {@code ISOLATION_XXX} constants
* defined on {@link TransactionDefinition this interface}.
* <p>Only makes sense in combination with {@link #PROPAGATION_REQUIRED}
* or {@link #PROPAGATION_REQUIRES_NEW}.
* <p>Note that a transaction manager that does not support custom isolation levels
* will throw an exception when given any other level than {@link #ISOLATION_DEFAULT}.
* @return the isolation level
*/
int getIsolationLevel();
/**
* Return the transaction timeout.
* <p>Must return a number of seconds, or {@link #TIMEOUT_DEFAULT}.
* <p>Only makes sense in combination with {@link #PROPAGATION_REQUIRED}
* or {@link #PROPAGATION_REQUIRES_NEW}.
* <p>Note that a transaction manager that does not support timeouts will throw
* an exception when given any other timeout than {@link #TIMEOUT_DEFAULT}.
* @return the transaction timeout
*/
int getTimeout();
/**
* Return whether to optimize as a read-only transaction.
* <p>The read-only flag applies to any transaction context, whether
* backed by an actual resource transaction
* ({@link #PROPAGATION_REQUIRED}/{@link #PROPAGATION_REQUIRES_NEW}) or
* operating non-transactionally at the resource level
* ({@link #PROPAGATION_SUPPORTS}). In the latter case, the flag will
* only apply to managed resources within the application, such as a
* Hibernate {@code Session}.
<< * <p>This just serves as a hint for the actual transaction subsystem;
* it will <i>not necessarily</i> cause failure of write access attempts.
* A transaction manager which cannot interpret the read-only hint will
* <i>not</i> throw an exception when asked for a read-only transaction.
* @return {@code true} if the transaction is to be optimized as read-only
* @see org.springframework.transaction.support.TransactionSynchronization#beforeCommit(boolean)
* @see org.springframework.transaction.support.TransactionSynchronizationManager#isCurrentTransactionReadOnly()
*/
boolean isReadOnly();
/**
* Return the name of this transaction. Can be {@code null}.
* <p>This will be used as the transaction name to be shown in a
* transaction monitor, if applicable (for example, WebLogic's).
* <p>In case of Spring's declarative transactions, the exposed name will be
* the {@code fully-qualified class name + "." + method name} (by default).
* @return the name of this transaction
* @see org.springframework.transaction.interceptor.TransactionAspectSupport
* @see org.springframework.transaction.support.TransactionSynchronizationManager#getCurrentTransactionName()
*/
String getName();
}
org.springframework.transaction.annotation;
enum Isolation
/** * Enumeration that represents transaction isolation levels for use * with the {@link Transactional} annotation, corresponding to the * {@link TransactionDefinition} interface. * * @author Colin Sampaleanu * @author Juergen Hoeller * @since 1.2 */ public enum Isolation { /** * Use the default isolation level of the underlying datastore. * All other levels correspond to the JDBC isolation levels. * @see java.sql.Connection */ DEFAULT(TransactionDefinition.ISOLATION_DEFAULT), /** * A constant indicating that dirty reads, non-repeatable reads and phantom reads * can occur. This level allows a row changed by one transaction to be read by * another transaction before any changes in that row have been committed * (a "dirty read"). If any of the changes are rolled back, the second * transaction will have retrieved an invalid row. * @see java.sql.Connection#TRANSACTION_READ_UNCOMMITTED */ READ_UNCOMMITTED(TransactionDefinition.ISOLATION_READ_UNCOMMITTED), /** * A constant indicating that dirty reads are prevented; non-repeatable reads * and phantom reads can occur. This level only prohibits a transaction * from reading a row with uncommitted changes in it. * @see java.sql.Connection#TRANSACTION_READ_COMMITTED */ READ_COMMITTED(TransactionDefinition.ISOLATION_READ_COMMITTED), /** * A constant indicating that dirty reads and non-repeatable reads are * prevented; phantom reads can occur. This level prohibits a transaction * from reading a row with uncommitted changes in it, and it also prohibits * the situation where one transaction reads a row, a second transaction * alters the row, and the first transaction rereads the row, getting * different values the second time (a "non-repeatable read"). * @see java.sql.Connection#TRANSACTION_REPEATABLE_READ */ REPEATABLE_READ(TransactionDefinition.ISOLATION_REPEATABLE_READ), /** * A constant indicating that dirty reads, non-repeatable reads and phantom * reads are prevented. This level includes the prohibitions in * {@code ISOLATION_REPEATABLE_READ} and further prohibits the situation * where one transaction reads all rows that satisfy a {@code WHERE} * condition, a second transaction inserts a row that satisfies that * {@code WHERE} condition, and the first transaction rereads for the * same condition, retrieving the additional "phantom" row in the second read. * @see java.sql.Connection#TRANSACTION_SERIALIZABLE */ SERIALIZABLE(TransactionDefinition.ISOLATION_SERIALIZABLE); private final int value; Isolation(int value) { this.value = value; } public int value() { return this.value; } }
org.springframework.transaction;
TransactionDefinitio/**
/** * Use the default isolation level of the underlying datastore. * All other levels correspond to the JDBC isolation levels. * @see java.sql.Connection */ int ISOLATION_DEFAULT = -1; /** * Indicates that dirty reads, non-repeatable reads and phantom reads * can occur. * <p>This level allows a row changed by one transaction to be read by another * transaction before any changes in that row have been committed (a "dirty read"). * If any of the changes are rolled back, the second transaction will have * retrieved an invalid row. * @see java.sql.Connection#TRANSACTION_READ_UNCOMMITTED */ int ISOLATION_READ_UNCOMMITTED = Connection.TRANSACTION_READ_UNCOMMITTED; /** * Indicates that dirty reads are prevented; non-repeatable reads and * phantom reads can occur. * <p>This level only prohibits a transaction from reading a row * with uncommitted changes in it. * @see java.sql.Connection#TRANSACTION_READ_COMMITTED */ int ISOLATION_READ_COMMITTED = Connection.TRANSACTION_READ_COMMITTED; /** * Indicates that dirty reads and non-repeatable reads are prevented; * phantom reads can occur. * <p>This level prohibits a transaction from reading a row with uncommitted changes * in it, and it also prohibits the situation where one transaction reads a row, * a second transaction alters the row, and the first transaction re-reads the row, * getting different values the second time (a "non-repeatable read"). * @see java.sql.Connection#TRANSACTION_REPEATABLE_READ */ int ISOLATION_REPEATABLE_READ = Connection.TRANSACTION_REPEATABLE_READ; /** * Indicates that dirty reads, non-repeatable reads and phantom reads * are prevented. * <p>This level includes the prohibitions in {@link #ISOLATION_REPEATABLE_READ} * and further prohibits the situation where one transaction reads all rows that * satisfy a {@code WHERE} condition, a second transaction inserts a row * that satisfies that {@code WHERE} condition, and the first transaction * re-reads for the same condition, retrieving the additional "phantom" row * in the second read. * @see java.sql.Connection#TRANSACTION_SERIALIZABLE */ int ISOLATION_SERIALIZABLE = Connection.TRANSACTION_SERIALIZABLE;