Windows Azure Caching

an in-memory, distributed caching feature designed for Microsoft Azure applications. Caching was available as a part of the Windows Azure SDK. The Azure Managed Cache and In-Role Cache services were retired, and Microsoft recommended migration to Azure Redis Cache.

Architecture
Windows Azure Caching allows a cloud service to host Caching on a Windows Azure role. The cache is distributed across all running instances of that role. Therefore, the amount of available memory in the cache is determined by the number of running instances of the role that hosts Caching and the amount of physical memory reserved for Caching on each instance.

There are two deployment topologies for Caching:
 * Dedicated
 * Co-located

Dedicated topology
In the dedicated topology, you define a worker role that is dedicated to Caching. This means that all of the worker role's available memory is used for the Caching and operating overhead.

The following diagram shows Caching in a dedicated topology. The cloud service shown has three roles: Web1, Worker1, and Cache1. There are two running instances of each role. In this example, the cache is distributed across all instances of the dedicated Cache1 role.



A dedicated topology has the advantage of scaling the caching tier independently of any other role in the cloud service. For the best Caching performance, a dedicated topology is recommended because the role instances do not share their resources with other application code and services.

Co-located topology
In a co-located topology, you use a percentage of available memory on existing web or worker roles for Caching.

The following diagram shows Caching in a co-located topology. The cloud service has two roles: Web1 and Worker1. There are two running instances of each role. In this example, the cache is distributed across all instances of the Web1 role. Because this role also hosts the web front-end for the cloud service, the cache is configured to use only a percentage of the physical memory on each instance of the Web1 role.



A co-located cache is a cost-effective way to make use of existing memory on a role within a cloud service.

Examples
The following sections show Windows Azure Caching configuration and code examples.

Configuration example
In Visual Studio, Caching is configured in the Caching tab of the properties of the role that hosts Caching. This makes underlying changes to the ServiceConfiguration.cscfg file. These settings determine the topology used (dedicated or co-located) and the number of named caches and their settings.

Other roles must be configured to use Caching. One way to do this is with a NuGet package. This includes modifying the web.config to contain a properly configured dataCacheClients section. The following example dataCacheClients section specifies that the role that hosts Caching is named “CacheWorker1”.

Code examples
Note that the code samples in this section are shown in C#.

When hosting Caching on roles, the DataCache class constructor can be used to specify both the named cache and the dataCacheClient section for the cache client settings. The following code shows how to create a named cache, NamedCache2, using the settings from a dataCacheClient section named customClient.

The following method shows how to use the Cache object to retrieve data from the cache. In this example, a user identifier (userid) is the key for the associated user information object. The code first attempts to get this user information from the cache using the userid key. If that does not succeed, the code retrieves the information with a database query and then stores the returned user data in the cache. The next time the same code is run, the user information will be returned from the cache rather than the database. This assumes that the cached data has not been expired or evicted.

The following method shows how to update data that is already in the cache.

The following call removes the item from the cache.

Shared Caching
Windows Azure Shared Caching provides caching as a managed service. Unlike co-located or dedicated topologies, the cache is not hosted on Windows Azure roles in a single cloud service deployment. Instead, the cache is provided as a multitenant service with usage quotas. The service is divided into tiers that range from 128 MB to 4 GB. In addition to storage capacity, each tier provides increasing processor and network capabilities. Shared Caching provides a way for multiple cloud services to access the same cache.

History
Windows Azure Caching has its roots in an on-premises technology, AppFabric. It was originally released as one of several Windows Azure AppFabric services, but the AppFabric designation in Windows Azure has since been abandoned. Many of the assembly names, namespaces, and APIs are identical between Windows Azure Caching and AppFabric Caching. The first release of Caching for Windows Azure in April 2011 provided caching as a managed service in Windows Azure. This offering is now called Shared Caching.

In October 2012, support was added for hosting Caching on roles within a cloud service deployment. This is now called Windows Azure Caching.

Related caching technologies
Windows Azure Caching is related to other Microsoft caching technologies. These technologies share similar features, such as the assembly name, namespace, and types. However, there are some differences. The table below describes these technologies.