Incremental Sync - Deduped History

High-Level Context

This connector syncs data incrementally, which means that only new or modified data will be synced. In contrast with the Incremental Append mode, this mode updates rows that have been modified instead of adding a new version of the row with the updated data. Simply put, if you've synced a row before and it has since been updated, this mode will combine the two rows in the destination and use the updated data. On the other hand, the Incremental Append mode would just add a new row with the updated data.

Overview

Airbyte supports syncing data in Incremental Deduped History mode i.e:
  1. 1.
    Incremental means syncing only replicate new or modified data. This prevents re-fetching data that you have already replicated from a source. If the sync is running for the first time, it is equivalent to a Full Refresh since all data will be considered as new.
  2. 2.
    Deduped means that data in the final table will be unique per primary key (unlike Append modes). This is determined by sorting the data using the cursor field and keeping only the latest de-duplicated data row. In dimensional data warehouse jargon defined by Ralph Kimball, this is referred as a Slowly Changing Dimension (SCD) table of type 1.
  3. 3.
    History means that an additional intermediate table is created in which data is being continuously appended to (with duplicates exactly like Append modes). With the use of primary key fields, it is identifying effective start and end dates of each row of a record. In dimensional data warehouse jargon, this is referred as a Slowly Changing Dimension (SCD) table of type 2.
In this flavor of incremental, records in the warehouse destination will never be deleted in the history tables (named with a _scd suffix), but might not exist in the final table. A copy of each new or updated record is appended to the history data in the warehouse. Only the end date column is mutated when a new version of the same record is inserted to denote effective date ranges of a row. This means you can find multiple copies of the same record in the destination warehouse. We provide an "at least once" guarantee of replicating each record that is present when the sync runs.
On the other hand, records in the final destination can potentially be deleted as they are de-duplicated. You should not find multiple copies of the same primary key as these should be unique in that table.

Definitions

A cursor is the value used to track whether a record should be replicated in an incremental sync. A common example of a cursor would be a timestamp from an updated_at column in a database table.
A cursor field is the field or column in the data where that cursor can be found. Extending the above example, the updated_at column in the database would be the cursor field, while the cursor is the actual timestamp value used to determine if a record should be replicated.
We will refer to the set of records that the source identifies as being new or updated as a delta.
A primary key is one or multiple (called composite primary keys) fields or columns that is used to identify the unique entities of a table. Only one row per primary key value is permitted in a database table. In the data warehouse, just like in incremental - Append, multiple rows for the same primary key can be found in the history table. The unique records per primary key behavior is mirrored in the final table with incremental deduped sync mode. The primary key is then used to refer to the entity which values should be updated.

Rules

As mentioned above, the delta from a sync will be appended to the existing history data in the data warehouse. In addition, it will update the associated record in the final table. Let's walk through a few examples.

Newly Created Record

Assume that updated_at is our cursor_field and name is the primary_key. Let's say the following data already exists into our data warehouse.
name
deceased
updated_at
Louis XVI
false
1754
Marie Antoinette
false
1755
In the next sync, the delta contains the following record:
name
deceased
updated_at
Louis XVII
false
1785
At the end of this incremental sync, the data warehouse would now contain:
name
deceased
updated_at
Louis XVI
false
1754
Marie Antoinette
false
1755
Louis XVII
false
1785

Updating a Record

Let's assume that our warehouse contains all the data that it did at the end of the previous section. Now, unfortunately the king and queen lose their heads. Let's see that delta:
name
deceased
updated_at
Louis XVI
true
1793
Marie Antoinette
true
1793
The output we expect to see in the warehouse is as follows:
In the history table:
name
deceased
updated_at
start_at
end_at
Louis XVI
false
1754
1754
1793
Louis XVI
true
1793
1793
NULL
Louis XVII
false
1785
1785
NULL
Marie Antoinette
false
1755
1755
1793
Marie Antoinette
true
1793
1793
NULL
In the final de-duplicated table:
name
deceased
updated_at
Louis XVI
true
1793
Louis XVII
false
1785
Marie Antoinette
true
1793

Source-Defined Cursor

Some sources are able to determine the cursor that they use without any user input. For example, in the exchange rates source, the source knows that the date field should be used to determine the last record that was synced. In these cases, simply select the incremental option in the UI.
(You can find a more technical details about the configuration data model here).

User-Defined Cursor

Some sources cannot define the cursor without user input. For example, in the postgres source, the user needs to choose which column in a database table they want to use as the cursor field. In these cases, select the column in the sync settings dropdown that should be used as the cursor field.
(You can find a more technical details about the configuration data model here).

Source-Defined Primary key

Some sources are able to determine the primary key that they use without any user input. For example, in the (JDBC) Database sources, primary key can be defined in the table's metadata.

User-Defined Primary key

Some sources cannot define the cursor without user input or the user may want to specify their own primary key on the destination that is different from the source definitions. In these cases, select the column in the sync settings dropdown that should be used as the primary key or composite primary keys.
In this example, we selected both the campaigns.id and campaigns.name as the composite primary key of our campaigns table.
Note that in Incremental Deduped History, the size of the data in your warehouse increases monotonically since an updated record in the source is appended to the destination history table rather than updated in-place as it is done with the final table. If you only care about having the latest snapshot of your data, you may want to periodically run cleanup jobs which retain only the latest instance of each record in the history tables.

Inclusive Cursors

When replicating data incrementally, Airbyte provides an at-least-once delivery guarantee. This means that it is acceptable for sources to re-send some data when ran incrementally. One case where this is particularly relevant is when a source's cursor is not very granular. For example, if a cursor field has the granularity of a day (but not hours, seconds, etc), then if that source is run twice in the same day, there is no way for the source to know which records that are that date were already replicated earlier that day. By convention, sources should prefer resending data if the cursor field is ambiguous.

Known Limitations

Due to the use of a cursor column, if modifications to the underlying records are made without properly updating the cursor field, then the updated records won't be picked up by the Incremental sync as expected since the source connectors extract delta rows using a SQL query looking like:
1
select * from table where cursor_field > 'last_sync_max_cursor_field_value'
Copied!
Let's say the following data already exists into our data warehouse.
name
deceased
updated_at
Louis XVI
false
1754
Marie Antoinette
false
1755
At the start of the next sync, the source data contains the following new record:
name
deceased
updated_at
Louis XVI
true
1754
At the end of the second incremental sync, the data warehouse would still contain data from the first sync because the delta record did not provide a valid value for the cursor field (the cursor field is not greater than last sync's max value, 1754 < 1755), so it is not emitted by the source as a new or modified record.
name
deceased
updated_at
Louis XVI
false
1754
Marie Antoinette
false
1755
Similarly, if multiple modifications are made during the same day to the same records. If the frequency of the sync is not granular enough (for example, set for every 24h), then intermediate modifications to the data are not going to be detected and emitted. Only the state of data at the time the sync runs will be reflected in the destination.
Those concerns could be solved by using a different incremental approach based on binary logs, Write-Ahead-Logs (WAL), or also called Change Data Capture (CDC).
The current behavior of Incremental is not able to handle source schema changes yet, for example, when a column is added, renamed or deleted from an existing table etc. It is recommended to trigger a Full refresh - Overwrite to correctly replicate the data to the destination with the new schema changes.
Additionally, this sync mode is only supported for destinations where dbt/normalization is possible for the moment. The de-duplicating logic is indeed implemented as dbt models as part of a sequence of transformations applied after the Extract and Load activities (thus, an ELT approach). Nevertheless, it is theoretically possible that destinations can handle directly this logic (maybe in the future) before actually writing records to the destination (as in traditional ETL manner), but that's not the way it is implemented at this time.
If you are not satisfied with how transformations are applied on top of the appended data, you can find more relevant SQL transformations you might need to do on your data in the Connecting EL with T using SQL (part 1/2)
Last modified 30d ago