package org.springframework.jdbc.support.incrementer;
import org.springframework.dao.DataAccessException;
import org.springframework.dao.DataAccessResourceFailureException;
import org.springframework.jdbc.datasource.DataSourceUtils;
import org.springframework.jdbc.support.JdbcUtils;
import javax.sql.DataSource;
import java.sql.Connection;
import java.sql.Statement;
import java.sql.ResultSet;
import java.sql.SQLException;
/**
* {@link DataFieldMaxValueIncrementer} that increments the maximum value of a given SQL Server table
* with the equivalent of an auto-increment column. Note: If you use this class, your Derby key
* column should <i>NOT</i> be defined as an IDENTITY column, as the sequence table does the job.
*
* <p>This class is inteded to be used with Microsoft SQL Server.
*
* <p>The sequence is kept in a table. There should be one sequence table per
* table that needs an auto-generated key.
*
* <p>Example:
*
* <pre class="code"> create table tab (id int not null primary key, text varchar(100))
* create table tab_sequence (id bigint identity)
* insert into tab_sequence default values</pre>
*
* If "cacheSize" is set, the intermediate values are served without querying the
* database. If the server or your application is stopped or crashes or a transaction
* is rolled back, the unused values will never be served. The maximum hole size in
* numbering is consequently the value of cacheSize.
*
* <b>HINT:</b> Since Microsoft SQL Server supports the JDBC 3.0 <code>getGeneratedKeys</code> method,
* it is recommended to use IDENTITY columns directly in the tables and then using a
* {@link org.springframework.jdbc.core.simple.SimpleJdbcInsert} or utilizing
* a {@link org.springframework.jdbc.support.KeyHolder} when calling the with the
* <code>update(PreparedStatementCreator psc, KeyHolder generatedKeyHolder)</code>
* method of the {@link org.springframework.jdbc.core.JdbcTemplate}.
*
* <p>Thanks to Preben Nilsson for the suggestion!
*
* @author Thomas Risberg
* @since 2.5.5
*/
public class SqlServerMaxValueIncrementer extends AbstractColumnMaxValueIncrementer {
/** The current cache of values */
private long[] valueCache;
/** The next id to serve from the value cache */
private int nextValueIndex = -1;
/**
* Default constructor for bean property style usage.
* @see #setDataSource
* @see #setIncrementerName
* @see #setColumnName
*/
public SqlServerMaxValueIncrementer() {
}
/**
* Convenience constructor.
* @param dataSource the DataSource to use
* @param incrementerName the name of the sequence/table to use
* @param columnName the name of the column in the sequence table to use
*/
public SqlServerMaxValueIncrementer(DataSource dataSource, String incrementerName, String columnName) {
super(dataSource, incrementerName, columnName);
}
protected synchronized long getNextKey() throws DataAccessException {
if (this.nextValueIndex < 0 || this.nextValueIndex >= getCacheSize()) {
/*
* Need to use straight JDBC code because we need to make sure that the insert and select
* are performed on the same connection (otherwise we can't be sure that @@identity
* returnes the correct value)
*/
Connection con = DataSourceUtils.getConnection(getDataSource());
Statement stmt = null;
try {
stmt = con.createStatement();
DataSourceUtils.applyTransactionTimeout(stmt, getDataSource());
this.valueCache = new long[getCacheSize()];
this.nextValueIndex = 0;
for (int i = 0; i < getCacheSize(); i++) {
stmt.executeUpdate("insert into " + getIncrementerName() + " default values");
ResultSet rs = stmt.executeQuery("select @@identity");
try {
if (!rs.next()) {
throw new DataAccessResourceFailureException("@@identity failed after executing an update");
}
this.valueCache[i] = rs.getLong(1);
}
finally {
JdbcUtils.closeResultSet(rs);
}
}
long maxValue = this.valueCache[(this.valueCache.length - 1)];
stmt.executeUpdate("delete from " + getIncrementerName() + " where " + getColumnName() + " < " + maxValue);
}
catch (SQLException ex) {
throw new DataAccessResourceFailureException("Could not increment identity", ex);
}
finally {
JdbcUtils.closeStatement(stmt);
DataSourceUtils.releaseConnection(con, getDataSource());
}
}
return this.valueCache[this.nextValueIndex++];
}
}