You can declare a field as binary using the BINARY
statement. You then read and write the field value using a Java byte array.
If you want to store a large binary object, then you should use the LOB APIs rather than a binary field. For information on using the LOB APIs, see the Oracle NoSQL API Large Object API introduction.
Note that fixed binary should be used over the binary datatype any time you know that all the field values will be of the same size. Fixed binary is a more compact storage format because it does not need to store the size of the array. See Using Fixed Binary for information on the fixed binary datatype.
To define a simple two-field table where the primary key is a UID and the second field contains a binary field, you use the following statement:
CREATE TABLE myTable (
uid INTEGER,
myByteArray BINARY,
PRIMARY KEY(uid)
)
CHECK, DEFAULT and NOT NULL
constraints are not supported for binary values.
To write the byte array, use Row.put().
TableAPI tableH = kvstore.getTableAPI();
Table myTable = tableH.getTable("myTable");
Row row = myTable.createRow();
row.put("uid", 12345);
String aString = "The quick brown fox.";
try {
row.put("myByteArray", aString.getBytes("UTF-8"));
} catch (UnsupportedEncodingException uee) {
uee.printStackTrace();
}
tableH.put(row, null, null);
To read the binary field, use
Row.get().asBinary(). This returns a
BinaryValue class instance. You can then
use BinaryValue.get() to retrieve the
stored byte array.
For example:
TableAPI tableH = kvstore.getTableAPI();
Table myTable = tableH.getTable("myTable");
/* Create a primary key for user id 12345 and get a row */
PrimaryKey key = myTable.createPrimaryKey();
key.put("uid", 12345);
Row row = tableH.get(key, null);
byte[] b = row.get("myByteArray").asBinary().get();
String aString = new String(b);
System.out.println("aString: " + aString);