Getting Started with Distributed Transactions in the ScalarDB Cluster .NET Client SDK
The ScalarDB Cluster .NET Client SDK supports the distributed transaction functionality of ScalarDB Cluster. The SDK includes transaction and manager abstractions for easier communication within a cluster.
Although we recommend using asynchronous methods as in the following examples, you can use synchronous versions instead.
For details about distributed SQL transactions, see Getting Started with Distributed SQL Transactions in the ScalarDB Cluster .NET Client SDK.
Get a transaction manager​
First, you need to get a transaction manager for distributed transactions. To get the transaction manager, you can use TransactionFactory
as follows, replacing <HOSTNAME_OR_IP_ADDRESS>
with the FQDN or the IP address, and <PORT>
with the port number (60053
by default) of your cluster:
var scalarDbOptions = new ScalarDbOptions
{
Address = "http://<HOSTNAME_OR_IP_ADDRESS>:<PORT>",
HopLimit = 10
};
var factory = TransactionFactory.Create(scalarDbOptions);
using var manager = factory.GetTransactionManager();
Manage transactions​
To execute CRUD operations, a transaction is needed. You can begin a transaction by using the transaction manager as follows:
var transaction = await manager.BeginAsync();
You can also resume a transaction that is already being executed as follows:
var transaction = manager.Resume(transactionIdString);
The Resume
method doesn't have an asynchronous version because it only creates a transaction object. Because of this, resuming a transaction by using the wrong ID is possible.
When a transaction is ready to be committed, you can call the CommitAsync
method of the transaction as follows:
await transaction.CommitAsync();
To roll back the transaction, you can use the RollbackAsync
method:
await transaction.RollbackAsync();
Execute CRUD operations​
A transaction has GetAsync
, ScanAsync
, PutAsync
, DeleteAsync
, and MutateAsync
methods to execute CRUD commands against the cluster. As a parameter, these methods have a command object. A command object can be created by using the builders listed in this section.
To use these builders add the following namespace to the using
section:
using ScalarDB.Net.Client.Builders;
The cluster does not support parallel execution of commands inside one transaction, so make sure to use await
for asynchronous methods.
GetAsync
method example​
using GetTypeEnum = Scalar.Db.Cluster.Rpc.V1.Get.Types.GetType;
// ...
var get =
new GetBuilder()
.SetNamespaceName("ns")
.SetTableName("statements")
.SetGetType(GetTypeEnum.Get)
.AddPartitionKey("order_id", "1")
.AddClusteringKey("item_id", 2)
.SetProjections("item_id", "count")
.Build();
var getResult = await transaction.GetAsync(get);
ScanAsync
method example​
using static Scalar.Db.Cluster.Rpc.V1.Scan.Types;
// ..
var scan =
new ScanBuilder()
.SetNamespaceName("ns")
.SetTableName("statements")
.SetScanType(ScanType.Scan)
.AddPartitionKey("order_id", "1")
.AddStartClusteringKey("item_id", 2)
.SetStartInclusive(true)
.AddEndClusteringKey("item_id", 8)
.SetEndInclusive(true)
.SetProjections("item_id", "count")
.Build();
var scanResult = await transaction.ScanAsync(scan);
PutAsync
method example​
var put =
new PutBuilder()
.SetNamespaceName("ns")
.SetTableName("statements")
.AddPartitionKey("order_id", "1")
.AddClusteringKey("item_id", 2)
.AddColumn("count", 11)
.Build();
await client.PutAsync(put);
DeleteAsync
method example​
var delete =
new DeleteBuilder()
.SetNamespaceName("ns")
.SetTableName("statements")
.AddPartitionKey("order_id", "1")
.AddClusteringKey("item_id", 2)
.Build();
await client.DeleteAsync(delete);
MutateAsync
method example:​
using Scalar.Db.Cluster.Rpc.V1;
// ...
var put =
new PutBuilder()
.SetNamespaceName("ns")
.SetTableName("statements")
.AddPartitionKey("order_id", "1")
.AddClusteringKey("item_id", 2)
.AddColumn("count", 11)
.Build();
var mutate = new Mutation { Put = put };
await client.MutateAsync(new[] { mutate });
To modify data by using the PutAsync
, DeleteAsync
, or MutateAsync
method, the data must be retrieved first by using the GetAsync
or ScanAsync
method.