Using connection pooling
The SQL Server transport is built on top of ADO.NET and will use connection pooling. This may result in the connection pool being shared by the transport, as well as other parts of the endpoint process and the business logic.
In scenarios where the concurrent message processing limit is changed, or the database connection is used for other purposes mentioned above, change the connection pool size to ensure it will not be exhausted. See SQL Server Connection Pooling and Configuration for more details.
If the maximum pool size is not explicitly set on the connection string a warning message will be logged. See also Tuning endpoint message processing.
Connection configuration
The connection string can be configured in several ways:
Via the configuration API
By using the ConnectionString
extension method:
var transport = endpointConfiguration.UseTransport<SqlServerTransport>();
transport.ConnectionString(
"Data Source=instance;Initial Catalog=db;Integrated Security=True;Max Pool Size=80");
Via the App.Config
By adding a connection named NServiceBus/
in the connectionStrings
node.
<configuration>
<connectionStrings>
<add name="NServiceBus/Transport"
connectionString="Data Source=instance; Initial Catalog=db; Integrated Security=True;Max Pool Size=80"/>
</connectionStrings>
</configuration>
Token-credentials
Microsoft Entra ID authentication is supported via the standard connection string options.
Custom database schemas
The SQL Server transport uses dbo
as a default schema. It is used for every queue if no other schema is explicitly provided in a transport address. This includes all local queues, error, audit and remote queues of other endpoints.
The default schema can be overridden using the DefaultSchema
method:
var transport = endpointConfiguration.UseTransport<SqlServerTransport>();
transport.DefaultSchema("myschema");
Custom database catalogs
By default, the SQL Server transport uses the catalog defined in the Initial Catalog
or Database
section of the provided connection string.
The catalog can be overwritten using the DefaultCatalog
method:
var transport = endpointConfiguration.UseTransport<SqlServerTransport>();
transport.DefaultCatalog("mycatalog");
When subscribing to events between endpoints in different database schemas or catalogs, a shared subscription table must be configured.
Custom SQL Server transport connection factory
In some environments it might be necessary to adapt to the database server settings, or to perform additional operations. For example, if the NOCOUNT
setting is enabled on the server, then it is necessary to send the SET NOCOUNT OFF
command immediately after opening the connection.
This can be done by passing a custom factory method to the transport which will provide connection strings at runtime, and which can perform custom actions:
var transport = endpointConfiguration.UseTransport<SqlServerTransport>();
transport.UseCustomSqlConnectionFactory(
sqlConnectionFactory: async () =>
{
var connection = new SqlConnection("SomeConnectionString");
try
{
await connection.OpenAsync();
// perform custom operations
return connection;
}
catch
{
connection.Dispose();
throw;
}
});
If opening the connection fails, the custom connection factory must dispose the connection object and rethrow the exception.
When using custom schemas or catalogs, ensure the connection returned by the connection factory is granted sufficient permissions for the endpoint to perform its operations.
Circuit breaker
A built-in circuit breaker is used to handle intermittent SQL Server connectivity problems. When a failure occurs while trying to connect, a circuit breaker enters an armed state. If the failure is not resolved before the configured wait time elapses, the circuit breaker triggers the critical errors handling procedure.
Wait time
The circuit breaker's default time to wait before triggering is two minutes. Use the TimeToWaitBeforeTriggeringCircuitBreaker
method to change it.
var transport = endpointConfiguration.UseTransport<SqlServerTransport>();
transport.TimeToWaitBeforeTriggeringCircuitBreaker(TimeSpan.FromMinutes(3));