Common Problems with Parameter and Data Value Handling

Common problems with parameters and data values exist in the different approaches provided by Spring Framework’s JDBC support. This section covers how to address them.

Providing SQL Type Information for Parameters

Usually, Spring determines the SQL type of the parameters based on the type of parameter passed in. It is possible to explicitly provide the SQL type to be used when setting parameter values. This is sometimes necessary to correctly set NULL values.

You can provide SQL type information in several ways:

  • Many update and query methods of the JdbcTemplate take an additional parameter in the form of an int array. This array is used to indicate the SQL type of the corresponding parameter by using constant values from the java.sql.Types class. Provide one entry for each parameter.

  • You can use the SqlParameterValue class to wrap the parameter value that needs this additional information. To do so, create a new instance for each value and pass in the SQL type and the parameter value in the constructor. You can also provide an optional scale parameter for numeric values.

  • For methods that work with named parameters, you can use the SqlParameterSource classes, BeanPropertySqlParameterSource or MapSqlParameterSource. They both have methods for registering the SQL type for any of the named parameter values.

Handling BLOB and CLOB objects

You can store images, other binary data, and large chunks of text in the database. These large objects are called BLOBs (Binary Large OBject) for binary data and CLOBs (Character Large OBject) for character data. In Spring, you can handle these large objects by using the JdbcTemplate directly and also when using the higher abstractions provided by RDBMS Objects and the SimpleJdbc classes. All of these approaches use an implementation of the LobHandler interface for the actual management of the LOB (Large OBject) data. LobHandler provides access to a LobCreator class, through the getLobCreator method, that is used for creating new LOB objects to be inserted.

LobCreator and LobHandler provide the following support for LOB input and output:

  • BLOB

    • byte[]: getBlobAsBytes and setBlobAsBytes

    • InputStream: getBlobAsBinaryStream and setBlobAsBinaryStream

  • CLOB

    • String: getClobAsString and setClobAsString

    • InputStream: getClobAsAsciiStream and setClobAsAsciiStream

    • Reader: getClobAsCharacterStream and setClobAsCharacterStream

The next example shows how to create and insert a BLOB. Later we show how to read it back from the database.

This example uses a JdbcTemplate and an implementation of the AbstractLobCreatingPreparedStatementCallback. It implements one method, setValues. This method provides a LobCreator that we use to set the values for the LOB columns in your SQL insert statement.

For this example, we assume that there is a variable, lobHandler, that is already set to an instance of a DefaultLobHandler. You typically set this value through dependency injection.

The following example shows how to create and insert a BLOB:

Java
final File blobIn = new File("spring2004.jpg");
final InputStream blobIs = new FileInputStream(blobIn);
final File clobIn = new File("large.txt");
final InputStream clobIs = new FileInputStream(clobIn);
final InputStreamReader clobReader = new InputStreamReader(clobIs);

jdbcTemplate.execute(
	"INSERT INTO lob_table (id, a_clob, a_blob) VALUES (?, ?, ?)",
	new AbstractLobCreatingPreparedStatementCallback(lobHandler) {  (1)
		protected void setValues(PreparedStatement ps, LobCreator lobCreator) throws SQLException {
			ps.setLong(1, 1L);
			lobCreator.setClobAsCharacterStream(ps, 2, clobReader, (int)clobIn.length());  (2)
			lobCreator.setBlobAsBinaryStream(ps, 3, blobIs, (int)blobIn.length());  (3)
		}
	}
);

blobIs.close();
clobReader.close();
1 Pass in the lobHandler that (in this example) is a plain DefaultLobHandler.
2 Using the method setClobAsCharacterStream to pass in the contents of the CLOB.
3 Using the method setBlobAsBinaryStream to pass in the contents of the BLOB.
Kotlin
val blobIn = File("spring2004.jpg")
val blobIs = FileInputStream(blobIn)
val clobIn = File("large.txt")
val clobIs = FileInputStream(clobIn)
val clobReader = InputStreamReader(clobIs)

jdbcTemplate.execute(
		"INSERT INTO lob_table (id, a_clob, a_blob) VALUES (?, ?, ?)",
		object: AbstractLobCreatingPreparedStatementCallback(lobHandler) {  (1)
			override fun setValues(ps: PreparedStatement, lobCreator: LobCreator) {
				ps.setLong(1, 1L)
				lobCreator.setClobAsCharacterStream(ps, 2, clobReader, clobIn.length().toInt())  (2)
				lobCreator.setBlobAsBinaryStream(ps, 3, blobIs, blobIn.length().toInt())  (3)
			}
		}
)
blobIs.close()
clobReader.close()
1 Pass in the lobHandler that (in this example) is a plain DefaultLobHandler.
2 Using the method setClobAsCharacterStream to pass in the contents of the CLOB.
3 Using the method setBlobAsBinaryStream to pass in the contents of the BLOB.

If you invoke the setBlobAsBinaryStream, setClobAsAsciiStream, or setClobAsCharacterStream method on the LobCreator returned from DefaultLobHandler.getLobCreator(), you can optionally specify a negative value for the contentLength argument. If the specified content length is negative, the DefaultLobHandler uses the JDBC 4.0 variants of the set-stream methods without a length parameter. Otherwise, it passes the specified length on to the driver.

See the documentation for the JDBC driver you use to verify that it supports streaming a LOB without providing the content length.

Now it is time to read the LOB data from the database. Again, you use a JdbcTemplate with the same instance variable lobHandler and a reference to a DefaultLobHandler. The following example shows how to do so:

Java
List<Map<String, Object>> l = jdbcTemplate.query("select id, a_clob, a_blob from lob_table",
	new RowMapper<Map<String, Object>>() {
		public Map<String, Object> mapRow(ResultSet rs, int i) throws SQLException {
			Map<String, Object> results = new HashMap<String, Object>();
			String clobText = lobHandler.getClobAsString(rs, "a_clob");  (1)
			results.put("CLOB", clobText);
			byte[] blobBytes = lobHandler.getBlobAsBytes(rs, "a_blob");  (2)
			results.put("BLOB", blobBytes);
			return results;
		}
	});
1 Using the method getClobAsString to retrieve the contents of the CLOB.
2 Using the method getBlobAsBytes to retrieve the contents of the BLOB.
Kotlin
val l = jdbcTemplate.query("select id, a_clob, a_blob from lob_table") { rs, _ ->
	val clobText = lobHandler.getClobAsString(rs, "a_clob")  (1)
	val blobBytes = lobHandler.getBlobAsBytes(rs, "a_blob")  (2)
	mapOf("CLOB" to clobText, "BLOB" to blobBytes)
}
1 Using the method getClobAsString to retrieve the contents of the CLOB.
2 Using the method getBlobAsBytes to retrieve the contents of the BLOB.

Passing in Lists of Values for IN Clause

The SQL standard allows for selecting rows based on an expression that includes a variable list of values. A typical example would be select * from T_ACTOR where id in (1, 2, 3). This variable list is not directly supported for prepared statements by the JDBC standard. You cannot declare a variable number of placeholders. You need a number of variations with the desired number of placeholders prepared, or you need to generate the SQL string dynamically once you know how many placeholders are required. The named parameter support provided in the NamedParameterJdbcTemplate and JdbcTemplate takes the latter approach. You can pass in the values as a java.util.List of primitive objects. This list is used to insert the required placeholders and pass in the values during statement execution.

Be careful when passing in many values. The JDBC standard does not guarantee that you can use more than 100 values for an in expression list. Various databases exceed this number, but they usually have a hard limit for how many values are allowed. For example, Oracle’s limit is 1000.

In addition to the primitive values in the value list, you can create a java.util.List of object arrays. This list can support multiple expressions being defined for the in clause, such as select * from T_ACTOR where (id, last_name) in ((1, 'Johnson'), (2, 'Harrop'\)). This, of course, requires that your database supports this syntax.

Handling Complex Types for Stored Procedure Calls

When you call stored procedures, you can sometimes use complex types specific to the database. To accommodate these types, Spring provides a SqlReturnType for handling them when they are returned from the stored procedure call and SqlTypeValue when they are passed in as a parameter to the stored procedure.

The SqlReturnType interface has a single method (named getTypeValue) that must be implemented. This interface is used as part of the declaration of an SqlOutParameter. The following example shows returning the value of an Oracle STRUCT object of the user declared type ITEM_TYPE:

Java
public class TestItemStoredProcedure extends StoredProcedure {

	public TestItemStoredProcedure(DataSource dataSource) {
		// ...
		declareParameter(new SqlOutParameter("item", OracleTypes.STRUCT, "ITEM_TYPE",
			new SqlReturnType() {
				public Object getTypeValue(CallableStatement cs, int colIndx, int sqlType, String 	) throws SQLException {
					STRUCT struct = (STRUCT) cs.getObject(colIndx);
					Object[] attr = struct.getAttributes();
					TestItem item = new TestItem();
					item.setId(((Number) attr[0]).longValue());
					item.setDescription((String) attr[1]);
					item.setExpirationDate((java.util.Date) attr[2]);
					return item;
				}
			}));
		// ...
	}
Kotlin
class TestItemStoredProcedure(dataSource: DataSource) : StoredProcedure() {

	init {
		// ...
		declareParameter(SqlOutParameter("item", OracleTypes.STRUCT, "ITEM_TYPE") { cs, colIndx, sqlType, typeName ->
			val struct = cs.getObject(colIndx) as STRUCT
			val attr = struct.getAttributes()
			TestItem((attr[0] as Long, attr[1] as String, attr[2] as Date)
		})
		// ...
	}
}

You can use SqlTypeValue to pass the value of a Java object (such as TestItem) to a stored procedure. The SqlTypeValue interface has a single method (named createTypeValue) that you must implement. The active connection is passed in, and you can use it to create database-specific objects, such as StructDescriptor instances or ArrayDescriptor instances. The following example creates a StructDescriptor instance:

Java
final TestItem testItem = new TestItem(123L, "A test item",
		new SimpleDateFormat("yyyy-M-d").parse("2010-12-31"));

SqlTypeValue value = new AbstractSqlTypeValue() {
	protected Object createTypeValue(Connection conn, int sqlType, String typeName) throws SQLException {
		StructDescriptor itemDescriptor = new StructDescriptor(typeName, conn);
		Struct item = new STRUCT(itemDescriptor, conn,
		new Object[] {
			testItem.getId(),
			testItem.getDescription(),
			new java.sql.Date(testItem.getExpirationDate().getTime())
		});
		return item;
	}
};
Kotlin
val (id, description, expirationDate) = TestItem(123L, "A test item",
		SimpleDateFormat("yyyy-M-d").parse("2010-12-31"))

val value = object : AbstractSqlTypeValue() {
	override fun createTypeValue(conn: Connection, sqlType: Int, typeName: String?): Any {
		val itemDescriptor = StructDescriptor(typeName, conn)
		return STRUCT(itemDescriptor, conn,
				arrayOf(id, description, java.sql.Date(expirationDate.time)))
	}
}

You can now add this SqlTypeValue to the Map that contains the input parameters for the execute call of the stored procedure.

Another use for the SqlTypeValue is passing in an array of values to an Oracle stored procedure. Oracle has its own internal ARRAY class that must be used in this case, and you can use the SqlTypeValue to create an instance of the Oracle ARRAY and populate it with values from the Java ARRAY, as the following example shows:

Java
final Long[] ids = new Long[] {1L, 2L};

SqlTypeValue value = new AbstractSqlTypeValue() {
	protected Object createTypeValue(Connection conn, int sqlType, String typeName) throws SQLException {
		ArrayDescriptor arrayDescriptor = new ArrayDescriptor(typeName, conn);
		ARRAY idArray = new ARRAY(arrayDescriptor, conn, ids);
		return idArray;
	}
};
Kotlin
class TestItemStoredProcedure(dataSource: DataSource) : StoredProcedure() {

	init {
		val ids = arrayOf(1L, 2L)
		val value = object : AbstractSqlTypeValue() {
			override fun createTypeValue(conn: Connection, sqlType: Int, typeName: String?): Any {
				val arrayDescriptor = ArrayDescriptor(typeName, conn)
				return ARRAY(arrayDescriptor, conn, ids)
			}
		}
	}
}