Change feed pull model in Azure Cosmos DB

APPLIES TO: NoSQL

You can use the change feed pull model to consume the Azure Cosmos DB change feed at your own pace. Similar to the change feed processor, you can use the change feed pull model to parallelize the processing of changes across multiple change feed consumers.

Compare to the change feed processor

Many scenarios can process the change feed by using either the change feed processor or the change feed pull model. The pull model's continuation tokens and the change feed processor's lease container both work as bookmarks for the last processed item or batch of items in the change feed.

However, you can't convert continuation tokens to a lease or vice versa.

Note

In most cases, when you need to read from the change feed, the simplest option is to use the change feed processor.

You should consider using the pull model in these scenarios:

  • To read changes from a specific partition key.
  • To control the pace at which your client receives changes for processing.
  • To perform a one-time read of the existing data in the change feed (for example, to do a data migration).

Here are some key differences between the change feed processor and the change feed pull model:

Feature Change feed processor Change feed pull model
Keeping track of the current point in processing the change feed Lease (stored in an Azure Cosmos DB container) Continuation token (stored in memory or manually persisted)
Ability to replay past changes Yes, with push model Yes, with pull model
Polling for future changes Automatically checks for changes based on user-specified WithPollInterval value Manual
Behavior where there are no new changes Automatically wait the value for WithPollInterval and then recheck Must check status and manually recheck
Process changes from an entire container Yes, and automatically parallelized across multiple threads and machines that consume from the same container Yes, and manually parallelized by using FeedRange
Process changes from only a single partition key Not supported Yes

Note

When you use the pull model, unlike when reading by using the change feed processor, you must explicitly handle cases where there are no new changes.

Work with the pull model

To process the change feed by using the pull model, create an instance of FeedIterator. When you initially create FeedIterator, you must specify a required ChangeFeedStartFrom value, which consists of both the starting position for reading changes and the value you want to use for FeedRange. The FeedRange is a range of partition key values and specifies the items that can be read from the change feed by using that specific FeedIterator. You must also specify a required ChangeFeedMode value for the mode in which you want to process changes: latest version or all versions and deletes. Use either ChangeFeedMode.LatestVersion or ChangeFeedMode.AllVersionsAndDeletes to indicate which mode you want to use to read the change feed. When you use all versions and deletes mode, you must select a change feed start from value of either Now() or from a specific continuation token.

You can optionally specify ChangeFeedRequestOptions to set a PageSizeHint. When set, this property sets the maximum number of items received per page. If operations in the monitored collection are performed through stored procedures, transaction scope is preserved when reading items from the change feed. As a result, the number of items received might be higher than the specified value so that the items changed by the same transaction are returned as part of one atomic batch.

Here's an example of how to obtain FeedIterator in latest version mode that returns entity objects, in this case a User object:

FeedIterator<User> InteratorWithPOCOS = container.GetChangeFeedIterator<User>(ChangeFeedStartFrom.Beginning(), ChangeFeedMode.LatestVersion);

Tip

Prior to version 3.34.0, latest version mode can be used by setting ChangeFeedMode.Incremental. Both Incremental and LatestVersion refer to latest version mode of the change feed and applications that use either mode will see the same behavior.

All versions and deletes mode is in preview and can be used with preview .NET SDK versions >= 3.32.0-preview. Here's an example for obtaining FeedIterator in all versions and deletes mode that returns dynamic objects:

FeedIterator<dynamic> InteratorWithDynamic = container.GetChangeFeedIterator<dynamic>(ChangeFeedStartFrom.Now(), ChangeFeedMode.AllVersionsAndDeletes);

Note

In latest version mode, you receive objects that represent the item that changed, with some extra metadata. All versions and deletes mode returns a different data model. For more information, see Parse the response object.

Consume the change feed via streams

FeedIterator for both change feed modes has two options. In addition to the examples that return entity objects, you can also obtain the response with Stream support. Streams allow you to read data without having it first deserialized, so you save on client resources.

Here's an example of how to obtain FeedIterator in latest version mode that returns Stream:

FeedIterator iteratorWithStreams = container.GetChangeFeedStreamIterator(ChangeFeedStartFrom.Beginning(), ChangeFeedMode.LatestVersion);

Consume the changes for an entire container

If you don't supply a FeedRange parameter to FeedIterator, you can process an entire container's change feed at your own pace. Here's an example, which starts reading all changes, starting at the current time by using latest version mode:

FeedIterator<User> iteratorForTheEntireContainer = container.GetChangeFeedIterator<User>(ChangeFeedStartFrom.Now(), ChangeFeedMode.LatestVersion);

while (iteratorForTheEntireContainer.HasMoreResults)
{
    FeedResponse<User> response = await iteratorForTheEntireContainer.ReadNextAsync();

    if (response.StatusCode == HttpStatusCode.NotModified)
    {
        Console.WriteLine($"No new changes");
        await Task.Delay(TimeSpan.FromSeconds(5));
    }
    else 
    {
        foreach (User user in response)
        {
            Console.WriteLine($"Detected change for user with id {user.id}");
        }
    }
}

Because the change feed is effectively an infinite list of items that encompass all future writes and updates, the value of HasMoreResults is always true. When you try to read the change feed and there are no new changes available, you receive a response with NotModified status. In the preceding example, it's handled by waiting five seconds before rechecking for changes.

Consume the changes for a partition key

In some cases, you might want to process only the changes for a specific partition key. You can obtain FeedIterator for a specific partition key and process the changes the same way that you can for an entire container.

FeedIterator<User> iteratorForPartitionKey = container.GetChangeFeedIterator<User>(
    ChangeFeedStartFrom.Beginning(FeedRange.FromPartitionKey(new PartitionKey("PartitionKeyValue")), ChangeFeedMode.LatestVersion));

while (iteratorForThePartitionKey.HasMoreResults)
{
    FeedResponse<User> response = await iteratorForThePartitionKey.ReadNextAsync();

    if (response.StatusCode == HttpStatusCode.NotModified)
    {
        Console.WriteLine($"No new changes");
        await Task.Delay(TimeSpan.FromSeconds(5));
    }
    else
    {
        foreach (User user in response)
        {
            Console.WriteLine($"Detected change for user with id {user.id}");
        }
    }
}

Use FeedRange for parallelization

In the change feed processor, work is automatically spread across multiple consumers. In the change feed pull model, you can use the FeedRange to parallelize the processing of the change feed. A FeedRange represents a range of partition key values.

Here's an example that shows how to get a list of ranges for your container:

IReadOnlyList<FeedRange> ranges = await container.GetFeedRangesAsync();

When you get a list of FeedRange values for your container, you get one FeedRange per physical partition.

By using a FeedRange, you can create a FeedIterator to parallelize the processing of the change feed across multiple machines or threads. Unlike the previous example that showed how to obtain a FeedIterator for the entire container or a single partition key, you can use FeedRanges to obtain multiple FeedIterators, which can process the change feed in parallel.

In the case where you want to use FeedRanges, you need to have an orchestrator process that obtains FeedRanges and distributes them to those machines. This distribution might be:

  • Using FeedRange.ToJsonString and distributing this string value. The consumers can use this value with FeedRange.FromJsonString.
  • If the distribution is in-process, passing the FeedRange object reference.

Here's a sample that shows how to read from the beginning of the container's change feed by using two hypothetical separate machines that read in parallel:

Machine 1:

FeedIterator<User> iteratorA = container.GetChangeFeedIterator<User>(ChangeFeedStartFrom.Beginning(ranges[0]), ChangeFeedMode.LatestVersion);
while (iteratorA.HasMoreResults)
{
    FeedResponse<User> response = await iteratorA.ReadNextAsync();

    if (response.StatusCode == HttpStatusCode.NotModified)
    {
        Console.WriteLine($"No new changes");
        await Task.Delay(TimeSpan.FromSeconds(5));
    }
    else
    {
        foreach (User user in response)
        {
            Console.WriteLine($"Detected change for user with id {user.id}");
        }
    }
}

Machine 2:

FeedIterator<User> iteratorB = container.GetChangeFeedIterator<User>(ChangeFeedStartFrom.Beginning(ranges[1]), ChangeFeedMode.LatestVersion);
while (iteratorB.HasMoreResults)
{
    FeedResponse<User> response = await iteratorA.ReadNextAsync();

    if (response.StatusCode == HttpStatusCode.NotModified)
    {
        Console.WriteLine($"No new changes");
        await Task.Delay(TimeSpan.FromSeconds(5));
    }
    else
    {
        foreach (User user in response)
        {
            Console.WriteLine($"Detected change for user with id {user.id}");
        }
    }
}

Save continuation tokens

You can save the position of your FeedIterator by obtaining the continuation token. A continuation token is a string value that keeps of track of your FeedIterator's last processed changes and allows the FeedIterator to resume at this point later. The continuation token, if specified, takes precedence over the start time and start from beginning values. The following code reads through the change feed since container creation. After no more changes are available, it will persist a continuation token so that change feed consumption can be later resumed.

FeedIterator<User> iterator = container.GetChangeFeedIterator<User>(ChangeFeedStartFrom.Beginning(), ChangeFeedMode.LatestVersion);

string continuation = null;

while (iterator.HasMoreResults)
{
    FeedResponse<User> response = await iterator.ReadNextAsync();

    if (response.StatusCode == HttpStatusCode.NotModified)
    {
        Console.WriteLine($"No new changes");
        continuation = response.ContinuationToken;
        // Stop the consumption since there are no new changes
        break;
    }
    else
    {
        foreach (User user in response)
        {
            Console.WriteLine($"Detected change for user with id {user.id}");
        }
    }
}

// Some time later when I want to check changes again
FeedIterator<User> iteratorThatResumesFromLastPoint = container.GetChangeFeedIterator<User>(ChangeFeedStartFrom.ContinuationToken(continuation), ChangeFeedMode.LatestVersion);

When you're using latest version mode, the FeedIterator continuation token never expires as long as the Azure Cosmos DB container still exists. When you're using all versions and deletes mode, the FeedIterator continuation token is valid as long as the changes happened within the retention window for continuous backups.

Next steps