Stream State#

The SDK automatically handles state management and bookmarks.

Important Notice Regarding State#

Note: The descriptions on this page are intended for debugging purposes only. We do not recommend reading or writing state directly within your tap.

The SDK was designed to automatically handle the state implementations so that developers don’t have to. If you are building a tap with the SDK and you find a need to directly read or write to the stream’s state objects, please open a ticket with a description of your use case and we will use your examples to support more advanced use cases in the future.

Standard State Format#

The Singer Spec does not dictate exactly how state needs to be tracked. However, the basic structure is documented as follows:

{
  "bookmarks": {
    "orders": {
      // 'orders' state stored here
    },
    "customers": {
      // 'customers' state stored here
    }
  }
}

Per-Stream STATE Properties#

Within each stream definition, the following are considered the minimal effective implementation within the SDK:

  1. replication_key and replication_key_value - These two keys together should designate the incremental replication key (if applicable) and the highest value yet seen for this property.

State Message Frequency#

The SDK will automatically generate and emit STATE messages according to the constant Stream.STATE_MSG_FREQUENCY, which designates how many RECORD messages should be processed before an updated STATE message should be emitted.

Backwards Compatibility#

While the exact specification of STATE messages may change between versions, it is nevertheless important that in production scenarios, any STATE bookmarks from prior versions of the tap should still be effective for incremental updates in newer versions.

For the purposes of backwards compatibility, developers may override Tap.load_state(state) in order to translate legacy STATE formats to the updated minimal implementation documented here.

Partitioned State#

The SDK implements a feature called state partitioning which allows the same stream to be segmented by one or more partitioning indexes and their values. This allows multiple bookmarks to be independently tracked for subsets of the total stream. For instance, using state partitioning, you can track a separate stream bookmark for records out of the us_east and us_west API endpoints, even if they are ultimately being sent downstream to the same target table.

For streams which are partitioned, the SDK will automatically store their stream state under a partitions key which exactly matches their context.

For parent-child streams, the SDK will automatically use the parent’s context as the default state partition.

Record Duplication#

The Singer Spec promises that each record in the source system will be processed successfully in the target at least once. This means that no record will ever be omitted from the stream or go missing, but it does not guarantee that all records will be received exactly once.

For more information on causes and mitigations of record duplication, please see the At Least Once implementation documentation.

Advanced Use Cases#

If some cases, the default behavior would create hundreds or millions of distinct bookmarks, which ultimately would slow processing and could cause other averse affects. For child streams with very high granularity parent streams (for instance, emoji reactions on post comments), the default state partitioning granularity can be overridden by setting Stream.state_partitioning_keys. By specifying a subset of keys to be used in partitioning rather than the entire default context, you could store distinct bookmarks only for each post ([post_id]) rather than the default parent context of one per post per comment ([post_id, comment_id]).

Partitioned State Example#

In this hypothetical example, our upstream Orders API requires Store ID as input, and as a result we have partitioned the orders stream into two partitions: one for store ID 1 and one for store ID 2. Splitting into two partitions allows us to automatically track separate bookmarks for each store, ensuring that we always have proper incremental replication key values for each one.

Note that in this example, we have a different replication_key_value for each partition and each partition’s state contains a unique context object to distinguish it from the others.

{
  "bookmarks": {
    "orders": {
      "partitions": [
        {
          "context": {
            "storeId": 1
          },
          "replication_key": "updatedAt",
          "replication_key_value": "2021-01-02T0:00:00Z"
        },
        {
          "context": {
            "storeId": 2
          },
          "replication_key": "updatedAt",
          "replication_key_value": "2021-01-01T00:00:00Z"
        }
      ]
    }
  }
}

Replication Key is Singular#

The SDK’s implementation of replication_key is intentionally within the framework of a singular column comparison. Most of those use cases which previously required multiple bookmarks can now be handled using the partitioning feature.

While legacy taps have sometimes supported multiple replication key properties, this is not yet a supported use case within the SDK. If your source requires multiple bookmark keys, and if it does not align with the partitioning feature, please open an issue with a detailed description of the intended use case.

The Impact of Sorting on Incremental Sync#

For incremental streams sorted by replication key, the replication key values are tracked in the stream state and emitted for each batch. Once the state message has been processed and emitted also by the target, those records preceding the state message should be assumed to be fully written by the target. In practice, this means that if a sorted stream is interrupted, the tap may resume from the last successfully processed state message.

To enable resume after interruption, developers may set is_sorted = True within the Stream class definition. If this is set, the SDK will check each record and throw an InvalidStreamSortException if unsorted records are detected during sync.

Dealing with Unsorted Streams#

There are some sources which are unable to send records sorted by their replication key, even when there is a valid replication key. In these cases, the SDK creates a separate progress_tracking object within the state dictionary. This is used to track the max value seen for the replication_key during the current sync.

Unlike the replication key tracking for pre-sorted streams, the progress trackers will be ignored (reset and wiped) for the purposes of resuming a failed sync operation. Only when the sync reaches 100% completion will those progress markers be promoted to a valid replication key bookmark for future sync operations.

This behavior is also the default for any streams which override state_partitioning_keys, since iterating through multiple parent contexts or partitions will naturally emit records in an unsorted manner.

Replication Key Signposts#

Signposts are a feature for incremental streams, where a maximum allowable value or “signpost” is used to prevent the replication key bookmark from advancing beyond the point where all records have been fully synced. This is especially important when streams are unsorted, since the presence of some records with timestamps during the sync operation does not imply that we have all records updated during the sync operation.

Signposts are enabled automatically for datetime replication keys, except when Stream.is_sorted is explicitly set to True. Signposts can be created by developers for non-timestamp replication keys (e.g. for binlog and event_id types) by overriding Stream.get_replication_key_signpost().

Additional Singer State References#