Skip to main content
Version: 3.6 (unsupported)

ScalarDB Java API Guide

The ScalarDB Java API is mainly composed of the Administrative API and Transactional API. This guide briefly explains what kinds of APIs exist, how to use them, and related topics like how to handle exceptions.

Administrative API​

This section explains how to execute administrative operations programmatically by using the Administrative API in ScalarDB.

note

Another method for executing administrative operations is to use Schema Loader.

Get a DistributedTransactionAdmin instance​

You first need to get a DistributedTransactionAdmin instance to execute administrative operations.

To get a DistributedTransactionAdmin instance, you can use TransactionFactory as follows:

TransactionFactory transactionFactory = TransactionFactory.create("<CONFIGURATION_FILE_PATH>");
DistributedTransactionAdmin admin = transactionFactory.getTransactionAdmin();

For details about configurations, see ScalarDB Configurations.

After you have executed all administrative operations, you should close the DistributedTransactionAdmin instance as follows:

admin.close();

Create a namespace​

Before creating tables, namespaces must be created since a table belongs to one namespace.

You can create a namespace as follows:

// Create the namespace "ns". If the namespace already exists, an exception will be thrown.
admin.createNamespace("ns");

// Create the namespace only if it does not already exist.
boolean ifNotExists = true;
admin.createNamespace("ns", ifNotExists);

// Create the namespace with options.
Map<String, String> options = ...;
admin.createNamespace("ns", options);

Creation options​

In the creation operations, like creating a namespace and creating a table, you can specify options that are maps of option names and values (Map<String, String>). By using the options, you can set storage adapter–specific configurations.

Select your database to see the options available:

NameDescriptionDefault
replication-strategyCassandra replication strategy. Must be SimpleStrategy or NetworkTopologyStrategy.SimpleStrategy
compaction-strategyCassandra compaction strategy, Must be LCS, STCS or TWCS.STCS
replication-factorCassandra replication factor.1

Create a table​

When creating a table, you should define the table metadata and then create the table.

To define the table metadata, you can use TableMetadata. The following shows how to define the columns, partition key, clustering key including clustering orders, and secondary indexes of a table:

// Define the table metadata.
TableMetadata tableMetadata =
TableMetadata.newBuilder()
.addColumn("c1", DataType.INT)
.addColumn("c2", DataType.TEXT)
.addColumn("c3", DataType.BIGINT)
.addColumn("c4", DataType.FLOAT)
.addColumn("c5", DataType.DOUBLE)
.addPartitionKey("c1")
.addClusteringKey("c2", Scan.Ordering.Order.DESC)
.addClusteringKey("c3", Scan.Ordering.Order.ASC)
.addSecondaryIndex("c4")
.build();

For details about the data model of ScalarDB, see Data Model.

Then, create a table as follows:

// Create the table "ns.tbl". If the table already exists, an exception will be thrown.
admin.createTable("ns", "tbl", tableMetadata);

// Create the table only if it does not already exist.
boolean ifNotExists = true;
admin.createTable("ns", "tbl", tableMetadata, ifNotExists);

// Create the table with options.
Map<String, String> options = ...;
admin.createTable("ns", "tbl", tableMetadata, options);

Create a secondary index​

You can create a secondary index as follows:

// Create a secondary index on column "c5" for table "ns.tbl". If a secondary index already exists, an exception will be thrown.
admin.createIndex("ns", "tbl", "c5");

// Create the secondary index only if it does not already exist.
boolean ifNotExists = true;
admin.createIndex("ns", "tbl", "c5", ifNotExists);

// Create the secondary index with options.
Map<String, String> options = ...;
admin.createIndex("ns", "tbl", "c5", options);

Truncate a table​

You can truncate a table as follows:

// Truncate the table "ns.tbl".
admin.truncateTable("ns", "tbl");

Drop a secondary index​

You can drop a secondary index as follows:

// Drop the secondary index on column "c5" from table "ns.tbl". If the secondary index does not exist, an exception will be thrown.
admin.dropIndex("ns", "tbl", "c5");

// Drop the secondary index only if it exists.
boolean ifExists = true;
admin.dropIndex("ns", "tbl", "c5", ifExists);

Drop a table​

You can drop a table as follows:

// Drop the table "ns.tbl". If the table does not exist, an exception will be thrown.
admin.dropTable("ns", "tbl");

// Drop the table only if it exists.
boolean ifExists = true;
admin.dropTable("ns", "tbl", ifExists);

Drop a namespace​

You can drop a namespace as follows:

// Drop the namespace "ns". If the namespace does not exist, an exception will be thrown.
admin.dropNamespace("ns");

// Drop the namespace only if it exists.
boolean ifExists = true;
admin.dropNamespace("ns", ifExists);

Get the tables of a namespace​

You can get the tables of a namespace as follows:

// Get the tables of the namespace "ns".
Set<String> tables = admin.getNamespaceTableNames("ns");

Get table metadata​

You can get table metadata as follows:

// Get the table metadata for "ns.tbl".
TableMetadata tableMetadata = admin.getTableMetadata("ns", "tbl");

Repair a table​

You can repair the table metadata of an existing table as follows:

// Repair the table "ns.tbl" with options.
TableMetadata tableMetadata =
TableMetadata.newBuilder()
...
.build();
Map<String, String> options = ...;
admin.repairTable("ns", "tbl", tableMetadata, options);

Specify operations for the Coordinator table​

The Coordinator table is used by the Transactional API to track the statuses of transactions.

When using a transaction manager, you must create the Coordinator table to execute transactions. In addition to creating the table, you can truncate and drop the Coordinator table.

Create the Coordinator table​

You can create the Coordinator table as follows:

// Create the Coordinator table.
admin.createCoordinatorTables();

// Create the Coordinator table only if one does not already exist.
boolean ifNotExist = true;
admin.createCoordinatorTables(ifNotExist);

// Create the Coordinator table with options.
Map<String, String> options = ...;
admin.createCoordinatorTables(options);

Truncate the Coordinator table​

You can truncate the Coordinator table as follows:

// Truncate the Coordinator table.
admin.truncateCoordinatorTables();

Drop the Coordinator table​

You can drop the Coordinator table as follows:

// Drop the Coordinator table.
admin.dropCoordinatorTables();

// Drop the Coordinator table if one exist.
boolean ifExist = true;
admin.dropCoordinatorTables(ifExist);

Transactional API​

This section explains how to execute transactional operations by using the Transactional API in ScalarDB.

Get a DistributedTransactionManager instance​

You first need to get a DistributedTransactionManager instance to execute transactional operations.

To get a DistributedTransactionManager instance, you can use TransactionFactory as follows:

TransactionFactory transactionFactory = TransactionFactory.create("<CONFIGURATION_FILE_PATH>");
DistributedTransactionManager manager = transactionFactory.getTransactionManager();

After you have executed all transactional operations, you should close the DistributedTransactionManager instance as follows:

manager.close();

Start a transaction​

Before executing transactional CRUD operations, you need to start a transaction.

You can start a transaction as follows:

// Start a transaction.
DistributedTransaction transaction = manager.start();

Implement CRUD operations​

The following sections describe key construction and CRUD operations.

note

Although all the builders of the CRUD operations can specify consistency by using the consistency() methods, those methods are ignored. Instead, the LINEARIZABLE consistency level is always used in transactions.

In addition, although the builders of the mutation operations (Put and Delete operations) can specify a condition by using the condition() methods, those methods are also ignored. Instead, if you want to implement conditional mutation, please program such conditions for transactions.

Key construction​

Most CRUD operations need to specify Key objects (partition-key, clustering-key, etc.). So, before moving on to CRUD operations, the following explains how to construct a Key object.

For a single column key, you can use Key.of<TYPE_NAME>() methods to construct the key as follows:

// For a key that consists of a single column of INT.
Key key1 = Key.ofInt("col1", 1);

// For a key that consists of a single column of BIGINT.
Key key2 = Key.ofBigInt("col1", 100L);

// For a key that consists of a single column of DOUBLE.
Key key3 = Key.ofDouble("col1", 1.3d);

// For a key that consists of a single column of TEXT.
Key key4 = Key.ofText("col1", "value");

For a key that consists of two to five columns, you can use the Key.of() method to construct the key as follows. Similar to ImmutableMap.of() in Guava, you need to specify column names and values in turns:

// For a key that consists of two to five columns.
Key key1 = Key.of("col1", 1, "col2", 100L);
Key key2 = Key.of("col1", 1, "col2", 100L, "col3", 1.3d);
Key key3 = Key.of("col1", 1, "col2", 100L, "col3", 1.3d, "col4", "value");
Key key4 = Key.of("col1", 1, "col2", 100L, "col3", 1.3d, "col4", "value", "col5", false);

For a key that consists of more than five columns, we can use the builder to construct the key as follows:

// For a key that consists of more than five columns.
Key key = Key.newBuilder()
.addInt("col1", 1)
.addBigInt("col2", 100L)
.addDouble("col3", 1.3d)
.addText("col4", "value")
.addBoolean("col5", false)
.addInt("col6", 100)
.build();

Get operation​

Get is an operation to retrieve a single record specified by a primary key.

You need to create a Get object first, and then you can execute the object by using the transaction.get() method as follows:

// Create a `Get` operation.
Key partitionKey = Key.ofInt("c1", 10);
Key clusteringKey = Key.of("c2", "aaa", "c3", 100L);

Get get =
Get.newBuilder()
.namespace("ns")
.table("tbl")
.partitionKey(partitionKey)
.clusteringKey(clusteringKey)
.projections("c1", "c2", "c3", "c4")
.build();

// Execute the `Get` operation.
Optional<Result> result = transaction.get(get);

You can also specify projections to choose which columns are returned.

Handle Result objects​

The Get operation and Scan operation return Result objects. The following shows how to handle Result objects.

You can get a column value of a result by using get<TYPE_NAME>("<COLUMN_NAME>") methods as follows:

// Get the BOOLEAN value of a column.
boolean booleanValue = result.getBoolean("<COLUMN_NAME>");

// Get the INT value of a column.
int intValue = result.getInt("<COLUMN_NAME>");

// Get the BIGINT value of a column.
long bigIntValue = result.getBigInt("<COLUMN_NAME>");

// Get the FLOAT value of a column.
float floatValue = result.getFloat("<COLUMN_NAME>");

// Get the DOUBLE value of a column.
double doubleValue = result.getDouble("<COLUMN_NAME>");

// Get the TEXT value of a column.
String textValue = result.getText("<COLUMN_NAME>");

// Get the BLOB value of a column as a `ByteBuffer`.
ByteBuffer blobValue = result.getBlob("<COLUMN_NAME>");

// Get the BLOB value of a column as a `byte` array.
byte[] blobValueAsBytes = result.getBlobAsBytes("<COLUMN_NAME>");

And if you need to check if a value of a column is null, you can use the isNull("<COLUMN_NAME>") method.

// Check if a value of a column is null.
boolean isNull = result.isNull("<COLUMN_NAME>");

For more details, see the Result page in the Javadoc of the version of ScalarDB that you're using.

Execute Get by using a secondary index​

You can execute a Get operation by using a secondary index.

Instead of specifying a partition key, you can specify an index key (indexed column) to use a secondary index as follows:

// Create a `Get` operation by using a secondary index.
Key indexKey = Key.ofFloat("c4", 1.23F);

Get get =
Get.newBuilder()
.namespace("ns")
.table("tbl")
.indexKey(indexKey)
.projections("c1", "c2", "c3", "c4")
.build();

// Execute the `Get` operation.
Optional<Result> result = transaction.get(get);
note

If the result has more than one record, transaction.get() will throw an exception. If you want to handle multiple results, see Execute Scan by using a secondary index.

Scan operation​

Scan is an operation to retrieve multiple records within a partition. You can specify clustering-key boundaries and orderings for clustering-key columns in Scan operations.

You need to create a Scan object first, and then you can execute the object by using the transaction.scan() method as follows:

// Create a `Scan` operation.
Key partitionKey = Key.ofInt("c1", 10);
Key startClusteringKey = Key.of("c2", "aaa", "c3", 100L);
Key endClusteringKey = Key.of("c2", "aaa", "c3", 300L);

Scan scan =
Scan.newBuilder()
.namespace("ns")
.table("tbl")
.partitionKey(partitionKey)
.start(startClusteringKey)
.end(endClusteringKey)
.projections("c1", "c2", "c3", "c4")
.orderings(Scan.Ordering.desc("c2"), Scan.Ordering.asc("c3"))
.limit(10)
.build();

// Execute the `Scan` operation.
List<Result> results = transaction.scan(scan);

You can omit the clustering-key boundaries or specify either a start boundary or an end boundary. If you don't specify orderings, you will get results ordered by the clustering order that you defined when creating the table.

In addition, you can specify projections to choose which columns are returned and use limit to specify the number of records to return in Scan operations.

Execute Scan by using a secondary index​

You can execute a Scan operation by using a secondary index.

Instead of specifying a partition key, you can specify an index key (indexed column) to use a secondary index as follows:

// Create a `Scan` operation by using a secondary index.
Key indexKey = Key.ofFloat("c4", 1.23F);

Scan scan =
Scan.newBuilder()
.namespace("ns")
.table("tbl")
.indexKey(indexKey)
.projections("c1", "c2", "c3", "c4")
.limit(10)
.build();

// Execute the `Scan` operation.
List<Result> results = transaction.scan(scan);
note

You can't specify clustering-key boundaries and orderings in Scan by using a secondary index.

Execute Scan without specifying a partition key to retrieve all the records of a table​

You can execute a Scan operation without specifying a partition key.

Instead of calling the partitionKey() method in the builder, you can call the all() method to scan a table without specifying a partition key as follows:

// Create a `Scan` operation without specifying a partition key.
Scan scan =
Scan.newBuilder()
.namespace("ns")
.table("tbl")
.all()
.projections("c1", "c2", "c3", "c4")
.limit(10)
.build();

// Execute the `Scan` operation.
List<Result> results = transaction.scan(scan);
note

You can't specify clustering-key boundaries and orderings in Scan without specifying a partition key.

Put operation​

Put is an operation to put a record specified by a primary key. The operation behaves as an upsert operation for a record, in which the operation updates the record if the record exists or inserts the record if the record does not exist.

note

When you update an existing record, you need to read the record by using Get or Scan before using a Put operation.

You need to create a Put object first, and then you can execute the object by using the transaction.put() method as follows:

// Create a `Put` operation.
Key partitionKey = Key.ofInt("c1", 10);
Key clusteringKey = Key.of("c2", "aaa", "c3", 100L);

Put put =
Put.newBuilder()
.namespace("ns")
.table("tbl")
.partitionKey(partitionKey)
.clusteringKey(clusteringKey)
.floatValue("c4", 1.23F)
.doubleValue("c5", 4.56)
.build();

// Execute the `Put` operation.
transaction.put(put);

You can also put a record with null values as follows:

Put put =
Put.newBuilder()
.namespace("ns")
.table("tbl")
.partitionKey(partitionKey)
.clusteringKey(clusteringKey)
.floatValue("c4", null)
.doubleValue("c5", null)
.build();

Delete operation​

Delete is an operation to delete a record specified by a primary key.

note

When you delete a record, you need to read the record by using Get or Scan before using a Delete operation.

You need to create a Delete object first, and then you can execute the object by using the transaction.delete() method as follows:

// Create a `Delete` operation.
Key partitionKey = Key.ofInt("c1", 10);
Key clusteringKey = Key.of("c2", "aaa", "c3", 100L);

Delete delete =
Delete.newBuilder()
.namespace("ns")
.table("tbl")
.partitionKey(partitionKey)
.clusteringKey(clusteringKey)
.build();

// Execute the `Delete` operation.
transaction.delete(delete);

Mutate operation​

Mutate is an operation to execute multiple mutations (Put and Delete operations).

You need to create mutation objects first, and then you can execute the objects by using the transaction.mutate() method as follows:

// Create `Put` and `Delete` operations.
Key partitionKey = Key.ofInt("c1", 10);

Key clusteringKeyForPut = Key.of("c2", "aaa", "c3", 100L);

Put put =
Put.newBuilder()
.namespace("ns")
.table("tbl")
.partitionKey(partitionKey)
.clusteringKey(clusteringKeyForPut)
.floatValue("c4", 1.23F)
.doubleValue("c5", 4.56)
.build();

Key clusteringKeyForDelete = Key.of("c2", "bbb", "c3", 200L);

Delete delete =
Delete.newBuilder()
.namespace("ns")
.table("tbl")
.partitionKey(partitionKey)
.clusteringKey(clusteringKeyForDelete)
.build();

// Execute the operations.
transaction.mutate(Arrays.asList(put, delete));

Commit a transaction​

After executing CRUD operations, you need to commit a transaction to finish it.

You can commit a transaction as follows:

// Commit a transaction.
transaction.commit();

Abort a transaction​

If an error occurs when executing a transaction, you can abort the transaction.

You can abort a transaction as follows:

// Abort a transaction.
transaction.abort();

For details about how to handle exceptions in ScalarDB, see How to handle exceptions.

How to handle exceptions​

When executing a transaction, you will also need to handle exceptions properly.

warning

If you don't handle exceptions properly, you may face anomalies or data inconsistency.

The following sample code shows how to handle exceptions:

public class Sample {
public static void main(String[] args) throws IOException, InterruptedException {
TransactionFactory factory = TransactionFactory.create("<CONFIGURATION_FILE_PATH>");
DistributedTransactionManager manager = factory.getTransactionManager();

int retryCount = 0;

while (true) {
if (retryCount > 0) {
// Retry the transaction three times maximum in this sample code.
if (retryCount == 3) {
return;
}
// Sleep 100 milliseconds before retrying the transaction in this sample code.
TimeUnit.MILLISECONDS.sleep(100);
}

// Start a transaction
DistributedTransaction tx;
try {
tx = manager.start();
} catch (TransactionException e) {
// If starting a transaction fails, it indicates some failure has happened during the transaction,
// so you should cancel the transaction or retry the transaction after fixing the failure/error.
return;
}

try {
// Execute CRUD operations in the transaction.
Optional<Result> result = tx.get(...);
List<Result> results = tx.scan(...);
tx.put(...);
tx.delete(...);

// Commit the transaction.
tx.commit();
} catch (CrudConflictException | CommitConflictException e) {
// If you catch `CrudConflictException` or `CommitConflictException`, it indicates conflicts
// happened during a transaction, so you should retry the transaction.
try {
tx.abort();
} catch (AbortException ex) {
// Aborting the transaction fails. You can log it here.
}
retryCount++;
} catch (CrudException | CommitException e) {
// If you catch `CrudException` or `CommitException`, it indicates some failure has happened, so you
// should cancel the transaction or retry the transaction after fixing the failure/error.
try {
tx.abort();
} catch (AbortException ex) {
// Aborting the transaction fails. You can log it here.
}
return;
} catch (UnknownTransactionStatusException e) {
// If you catch `UnknownTransactionStatusException` when committing the transaction, you are
// not sure if the transaction succeeds or not. In such a case, you need to check if the
// transaction is committed successfully or not and retry it if it failed. How to identify a
// transaction status is delegated to users.
return;
}
}
}
}

CrudException and CrudConflictException​

The APIs for CRUD operations (get(), scan(), put(), delete(), and mutate()) could throw CrudException or CrudConflictException:

  • If you catch CrudException, this exception indicates that the transaction CRUD operation has failed due to transient or non-transient faults. You can try retrying the transaction from the beginning, but the transaction may still fail if the cause is non-transient.
  • If you catch CrudConflictException, this exception indicates that the transaction CRUD operation has failed due to transient faults (for example, a conflict error). In this case, you can retry the transaction from the beginning.

CommitException, CommitConflictException, and UnknownTransactionStatusException​

The commit() API could throw CommitException, CommitConflictException, or UnknownTransactionStatusException:

  • If you catch CommitException, this exception indicates that committing the transaction fails due to transient or non-transient faults. You can try retrying the transaction from the beginning, but the transaction may still fail if the cause is non-transient.
  • If you catch CommitConflictException, this exception indicates that committing the transaction has failed due to transient faults (for example, a conflict error). In this case, you can retry the transaction from the beginning.
  • If you catch UnknownTransactionStatusException, this exception indicates that the status of the transaction, whether it was successful or not, is unknown. In this case, you need to check if the transaction is committed successfully and retry the transaction if it has failed.

How to identify a transaction status is delegated to users. You may want to create a transaction status table and update it transactionally with other application data so that you can get the status of a transaction from the status table.

Investigating Consensus Commit transaction manager errors​

To investigate errors when using the Consensus Commit transaction manager, you can enable a configuration that will return table metadata augmented with transaction metadata columns, which can be helpful when investigating transaction-related issues. This configuration, which is only available when troubleshooting the Consensus Commit transaction manager, enables you to see transaction metadata column details for a given table by using the DistributedTransactionAdmin.getTableMetadata() method.

By adding the following configuration, Get and Scan operations results will contain transaction metadata:

# By default, this configuration is set to `false`.
scalar.db.consensus_commit.include_metadata.enabled=true