Lineage shows how data flows from its origins to its various destinations. This includes details of the processing along the way. It is used both to understand:

The lineage graph

Lineage is typically envisaged as a graph showing processes interacting with different data stores.
Figure 1 shows some examples of different types of processes and data stores.

Figure 1

Figure 1: Examples of processes

Some processes copy data from one store to another. Other processes may retrieve data from multiple stores and combine them to produce a new value that is stored in another store. The result is that a logical flow of data emerges from the interaction.

Figure 2

Figure 2: The lineage graph emerges

Since there is no over-arching controller, lineage capture involves contributions from many technologies that have to be stitched together to created the overall flow.

Each technology contributes what they know to open metadata and the open metadata services stitch it together. The stitching process is a mixture of automated matching and human stewardship. Consistency in naming and use of open metadata types increases the effectiveness of the stitching process.

Figure 3 abstracts the example shown in figure 2. From this you can see that the flow is not a simple progression from left to right. API calls can pass data in either direction for example.

Figure 3

Figure 3: The abstract lineage graph

There are also often systems that act as a hub, with many processes extracting data, performing processing and then storing the results back into the same system. Other stores act as a consolidation point, receiving data from many systems and then distributing to multiple downstream stores. So the graph also involves loops and fan-in-fan-out structures.

Lineage mapping

The LineageMapping relationship is used to link metadata elements from one process/data store (collectively known as Assets).

For critical processes, an organization may need to trace the journey of a particular data field as it flows between processes and data stores. For this to work, lineage needs to capture details of the inner workings of processes as well the parameters of APIs and schemas of data stores. However, not all technologies support this level of and so the lineage graph is often a mixture of different levels of detail.

Figure 4 shows the lineage mapping between processes. This shows the flow of control between processes but no details about the processing inside the processes.

Figure 4

Figure 4: Lineage mapping between processes

Figure 5 shows lineage mapping between ports on the processes. This detail is useful for more complex processes where different subsets of data fields are received and sent by the process through different interfaces.

Figure 5

Figure 5: Lineage mapping between ports

Figure 6 shows detailed mapping between data fields. This level of lineage means that it is possible to trace what is happening with specific data fields.

Figure 6

Figure 6: Lineage mapping between the data fields

Figure 7 shows lineage across multiple technologies.

Figure 7

Figure 6: Lineage mapping between the data fields

Lineage for Dynamic landscapes

When an asset is deleted from the open metadata repositories, all of its relationships with other elements are also deleted. This includes the lineage relationships.

It is possible to move assets out of the governance zones where active users are working with assets. This ensures the assets are no longer visible to these users. However it also means they are not visible for the lineage graph.

There is an option to mark assets as deleted whilst sill keeping them in the active governance zones. This involves adding the Memento classification to the asset. With this classification in place, the asset is only returned on lineage queries. The Memento classification is set in APIs such as the archiveDataFileInCatalog() methods on the Data Manager Open Metadata Access Service (OMAS) and Files Integrator Open Metadata Integration Service (OMIS).

Further reading

APIs for capturing lineage

APIs for retrieving lineage

License: CC BY 4.0, Copyright Contributors to the ODPi Egeria project.