The Azure Cosmos DB team is announcing the general availability of version 3 of the Azure Cosmos DB .NET SDK, released in July. Thank you to all who gave feedback during our preview.
In this post, we’ll walk through the latest improvements that we’ve made to enhance the developer experience in .NET SDK v3.
You can get the latest version of the SDK through NuGet and contribute on GitHub.
//Using .NET CLI
dotnet add package Microsoft.Azure.Cosmos
//Using NuGet
Install-Package Microsoft.Azure.Cosmos
What is Azure Cosmos DB?
Azure Cosmos DB is a globally distributed, multi-model database service that enables you to read and write data from any Azure region. It offers turnkey global distribution, guarantees single-digit millisecond latencies at the 99th percentile, 99.999 percent high availability, and elastic scaling of throughput and storage.
What is new in Azure Cosmos DB .NET SDK version 3?
Version 3 of the SDK contains numerous usability and performance improvements, including a new intuitive programming model, support for stream APIs, built-in support for change feed processor APIs, the ability to scale non-partitioned containers, and more. The SDK targets .NET Standard 2.0 and is open sourced on GitHub.
For new workloads, we recommend starting with the latest version 3.x SDK for the best experience. We have no immediate plans to retire version 2.x of the .NET SDK.
Targets .NET Standard 2.0
We’ve unified the existing Azure Cosmos DB .NET Framework and .NET Core SDKs into a single SDK, which targets .NET Standard 2.0. You can now use the .NET SDK in any platform that implements .NET Standard 2.0, including your .NET Framework 4.6.1+ and .NET Core 2.0+ applications.
The Azure Cosmos DB .NET v3 SDK is open source, and our team is planning to do development in the open. To that end, we welcome any pull requests and will be logging issues and tracking feedback on GitHub.
New programming model with fluent API surface
Since the preview, we’ve continued to improve the object model for a more intuitive developer experience. We’ve created a new top level CosmosClient class to replace DocumentClient and split its methods into modular database and container classes. From our usability studies, we’ve seen that this hierarchy makes it easier for developers to learn and discover the API surface.
We’ve also added in fluent builder APIs, which make it easier to create CosmosClient, Container, and ChangeFeedProcessor classes with custom options.
View all samples on GitHub.
Stream APIs for high performance
The previous versions of the Azure Cosmos DB .NET SDKs always serialized and deserialized the data to and from the network. In the context of an ASP.NET Web API, this can lead to performance overhead. Now, with the new stream API, when you read an item or query, you can get the stream and pass it to the response without deserialization overhead, using the new GetItemQueryStreamIterator and ReadItemStreamAsync methods. To learn more, refer to the GitHub sample.
Easier to test and more extensible
In .NET SDK version 3, all APIs are mockable, making for easier unit testing.
We also introduced an extensible request pipeline, so you can pass in custom handlers that will run when sending requests to the service. For example, you can use these handlers to log request information in Azure Application Insights, define custom retry polices, and more. You can also now pass in a custom serializer, another commonly requested developer feature.
Use the Change Feed Processor APIs directly from the SDK
One of the most popular features of Azure Cosmos DB is the change feed, which is commonly used in event-sourcing architectures, stream processing, data movement scenarios, and to build materialized views. The change feed enables you to listen to changes on a container and get an incremental feed of its records as they are created or updated.
The new SDK has built-in support for the Change Feed Processor APIs, which means you can use the same SDK for building your application and change feed processor implementation. Previously, you had to use the separate change feed processor library.
To get started, refer to the documentation "Change feed processor in Azure Cosmos DB."
Ability to scale non-partitioned containers
We’ve heard from many customers who have non-partitioned or “fixed” containers that they wanted to scale them beyond their 10GB storage and 10,000 RU/s provisioned throughput limit. With version 3 of the SDK, you can now do so, without having to create a new container and move your data.
All non-partitioned containers now have a system partition key “_partitionKey” that you can set to a value when writing new items. Once you begin using the _partitionKey value, Azure Cosmos DB will scale your container as its storage volume increases beyond 10GB. If you want to keep your container as is, you can use the PartitionKey.None value to read and write existing data without a partition key.
Easier APIs for scaling throughput
We’ve redesigned the APIs for scaling provisioned throughput (RU/s) up and down. You can now use the ReadThroughputAsync method to get the current throughput and ReplaceThroughputAsync to change it. View sample.
Get started
To get started with the new Azure Cosmos DB .NET SDK version 3, add our new NuGet package to your project. To get started, follow the new tutorial and quickstart. We’d love to hear your feedback! You can log issues on our GitHub repository.
Stay up-to-date on the latest Azure #CosmosDB news and features by following us on Twitter @AzureCosmosDB. We can't wait to see what you will build with Azure Cosmos DB and the new .NET SDK!
Quelle: Azure
Published by