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Data Flow Task

Applies to: SQL Server SSIS Integration Runtime in Azure Data Factory

The Data Flow task encapsulates the data flow engine that moves data between sources and destinations, and lets the user transform, clean, and modify data as it is moved. Addition of a Data Flow task to a package control flow makes it possible for the package to extract, transform, and load data.

A data flow consists of at least one data flow component, but it is typically a set of connected data flow components: sources that extract data; transformations that modify, route, or summarize data; and destinations that load data.

At run time, the Data Flow task builds an execution plan from the data flow, and the data flow engine executes the plan. You can create a Data Flow task that has no data flow, but the task executes only if it includes at least one data flow.

To bulk insert data from text files into a SQL Server database, you can use the Bulk Insert task instead of a Data Flow task and a data flow. However, the Bulk Insert task cannot transform data. For more information, see Bulk Insert Task.

Multiple Flows

A Data Flow task can include multiple data flows. If a task copies several sets of data, and if the order in which the data is copied is not significant, it can be more convenient to include multiple data flows in the Data Flow task. For example, you might create five data flows, each copying data from a flat file into a different dimension table in a data warehouse star schema.

However, the data flow engine determines order of execution when there are multiple data flows within one data flow task. Therefore, when order is important, the package should use multiple Data Flow tasks, each task containing one data flow. You can then apply precedence constraints to control the execution order of the tasks.

The following diagram shows a Data Flow task that has multiple data flows.

Data flows

Log Entries

Integration Services provides a set of log events that are available to all tasks. Integration Services also provides custom log entries to many tasks. For more information, see Integration Services (SSIS) Logging. The Data Flow task includes the following custom log entries:

Log entry Description
BufferSizeTuning Indicates that the Data Flow task changed the size of the buffer. The log entry describes the reasons for the size change and lists the temporary new buffer size.
OnPipelinePostEndOfRowset Denotes that a component has been given its end-of-rowset signal, which is set by the last call of the ProcessInput method. An entry is written for each component in the data flow that processes input. The entry includes the name of the component.
OnPipelinePostPrimeOutput Indicates that the component has completed its last call to the PrimeOutput method. Depending on the data flow, multiple log entries may be written. If the component is a source, this log entry means that the component has finished processing rows.
OnPipelinePreEndOfRowset Indicates that a component is about to receive its end-of-rowset signal, which is set by the last call of the ProcessInput method. An entry is written for each component in the data flow that processes input. The entry includes the name of the component.
OnPipelinePrePrimeOutput Indicates that the component is about to receive its call from the PrimeOutput method. Depending on the data flow, multiple log entries may be written.
OnPipelineRowsSent Reports the number of rows provided to a component input by a call to the ProcessInput method. The log entry includes the component name.
PipelineBufferLeak Provides information about any component that kept buffers alive after the buffer manager goes away. If a buffer is still alive, buffers resources were not released and may cause memory leaks. The log entry provides the name of the component and the ID of the buffer.
PipelineComponentTime Reports the amount of time (in milliseconds) that the component spent in each of its five major processing steps-Validate, PreExecute, PostExecute, ProcessInput, and ProcessOutput.
PipelineExecutionPlan Reports the execution plan of the data flow. The execution plan provides information about how buffers will be sent to components. This information, in combination with the PipelineExecutionTrees log entry, describes what is happening within the Data Flow task.
PipelineExecutionTrees Reports the execution trees of the layout in the data flow. The scheduler of the data flow engine uses the trees to build the execution plan of the data flow.
PipelineInitialization Provides initialization information about the task. This information includes the directories to use for temporary storage of BLOB data, the default buffer size, and the number of rows in a buffer. Depending on the configuration of the Data Flow task, multiple log entries may be written.

These log entries provide a wealth of information about the execution of the Data Flow task each time you run a package. As you run the packages repeatedly, you can capture information that over time provides important historical information about the processing that the task performs, issues that might affect performance, and the data volume that task handles.

For more information about how to use these log entries to monitor and improve the performance of the data flow, see one of the following topics:

Sample Messages From a Data Flow Task

The following table lists sample messages for log entries for a very simple package. The package uses an OLE DB source to extract data from a table, a Sort transformation to sort the data, and an OLE DB destination to writes the data to a different table.

Log entry Messages
BufferSizeTuning Rows in buffer type 0 would cause a buffer size greater than the configured maximum. There will be only 9637 rows in buffers of this type.

Rows in buffer type 2 would cause a buffer size greater than the configured maximum. There will be only 9497 rows in buffers of this type.

Rows in buffer type 3 would cause a buffer size greater than the configured maximum. There will be only 9497 rows in buffers of this type.
OnPipelinePostEndOfRowset A component will be given the end of rowset signal. : 1180 : Sort : 1181 : Sort Input

A component will be given the end of rowset signal. : 1291 : OLE DB Destination : 1304 : OLE DB Destination Input
OnPipelinePostPrimeOutput A component has returned from its PrimeOutput call. : 1180 : Sort

A component has returned from its PrimeOutput call. : 1 : OLE DB Source
OnPipelinePreEndOfRowset A component has finished processing all of its rows. : 1180 : Sort : 1181 : Sort Input

A component has finished processing all of its rows. : 1291 : OLE DB Destination : 1304 : OLE DB Destination Input
OnPipelinePrePrimeOutput PrimeOutput will be called on a component. : 1180 : Sort

PrimeOutput will be called on a component. : 1 : OLE DB Source
OnPipelineRowsSent Rows were provided to a data flow component as input. : : 1185 : OLE DB Source Output : 1180 : Sort : 1181 : Sort Input : 76

Rows were provided to a data flow component as input. : : 1308 : Sort Output : 1291 : OLE DB Destination : 1304 : OLE DB Destination Input : 76
PipelineComponentTime The component "Calculate LineItemTotalCost" (3522) spent 356 milliseconds in ProcessInput.

The component "Sum Quantity and LineItemTotalCost" (3619) spent 79 milliseconds in ProcessInput.

The component "Calculate Average Cost" (3662) spent 16 milliseconds in ProcessInput.

The component "Sort by ProductID" (3717) spent 125 milliseconds in ProcessInput.

The component "Load Data" (3773) spent 0 milliseconds in ProcessInput.

The component "Extract Data" (3869) spent 688 milliseconds in PrimeOutput filling buffers on output "OLE DB Source Output" (3879).

The component "Sum Quantity and LineItemTotalCost" (3619) spent 141 milliseconds in PrimeOutput filling buffers on output "Aggregate Output 1" (3621).

The component "Sort by ProductID" (3717) spent 16 milliseconds in PrimeOutput filling buffers on output "Sort Output" (3719).
PipelineExecutionPlan SourceThread0

Drives: 1

Influences: 1180 1291

Output Work List

CreatePrimeBuffer of type 1 for output ID 11.

SetBufferListener: "WorkThread0" for input ID 1181

CreatePrimeBuffer of type 3 for output ID 12.

CallPrimeOutput on component "OLE DB Source" (1)

End Output Work List

End SourceThread0

WorkThread0

Drives: 1180

Influences: 1180 1291

Input Work list, input ID 1181 (1 EORs Expected)

CallProcessInput on input ID 1181 on component "Sort" (1180) for view type 2

End Input Work list for input 1181

Output Work List

CreatePrimeBuffer of type 4 for output ID 1182.

SetBufferListener: "WorkThread1" for input ID 1304

CallPrimeOutput on component "Sort" (1180)

End Output Work List

End WorkThread0

WorkThread1

Drives: 1291

Influences: 1291

Input Work list, input ID 1304 (1 EORs Expected)

CallProcessInput on input ID 1304 on component "OLE DB Destination" (1291) for view type 5

End Input Work list for input 1304

Output Work List

End Output Work List

End WorkThread1
PipelineExecutionTrees begin execution tree 0

output "OLE DB Source Output" (11)

input "Sort Input" (1181)

end execution tree 0

begin execution tree 1

output "OLE DB Source Error Output" (12)

end execution tree 1

begin execution tree 2

output "Sort Output" (1182)

input "OLE DB Destination Input" (1304)

output "OLE DB Destination Error Output" (1305)

end execution tree 2
PipelineInitialization No temporary BLOB data storage locations were provided. The buffer manager will consider the directories in the TEMP and TMP environment variables.

The default buffer size is 10485760 bytes.

Buffers will have 10000 rows by default

The data flow will not remove unused components because its RunInOptimizedMode property is set to false.

Many log events write multiple entries, and the messages for a number of log entries contain complex data. To make it easier to understand and to communicate the content of complex messages you can parse the message text. Depending on the location of the logs, you can use Transact-SQL statements or a Script component to separate the complex text into columns or other formats that you find more useful.

For example, the following table contains the message "Rows were provided to a data flow component as input. : : 1185 : OLE DB Source Output : 1180 : Sort : 1181 : Sort Input : 76", parsed into columns. The message was written by the OnPipelineRowsSent event when rows were sent from the OLE DB source to the Sort transformation.

Column Description Value
PathID The value from the ID property of the path between the OLE DB source and the Sort transformation. 1185
PathName The value from the Name property of the path. OLE DB Source Output
ComponentID The value of the ID property of the Sort transformation. 1180
ComponentName The value from the Name property of the Sort transformation. Sort
InputID The value from the ID property of the input to the Sort transformation. 1181
InputName The value from the Name property of the input to the Sort transformation. Sort Input
RowsSent The number of rows sent to the input of the Sort transformation. 76

Configuration of the Data Flow Task

You can set properties in the Properties window or programmatically.

For more information about how to set these properties in the Properties window, click the following topic:

Programmatic Configuration of the Data Flow Task

For more information about programmatically adding a data flow task to a package and setting data flow properties, click the following topic:

Set the Properties of a Task or Container

Video, Balanced Data Distributer, on technet.microsoft.com.