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Version: v1.1.0

Azure Service Bus Message Pump

Azure Service Bus Message Pump will perform all the plumbing that is required for processing queues & topics:

  • Manage message pump lifecycle
  • Deserialize messages into concrete types
  • Interpret message to provide correlation & context information
  • Provide exception handling
  • Provide telemetry

As a user, the only thing you have to do is focus on processing messages, not how to get them. You can do this by creating a message handler which implements from IAzureServiceBusMessageHandler<TMessage> (or IMessageHandler<TMessage, MessageContext>).

Here is an example of a message handler that expects messages of type Order:

using Arcus.Messaging.Abstractions;
using Arcus.Messaging.Pumps.ServiceBus;
using Microsoft.Extensions.Logging;

public class OrdersMessageHandler : IAzureServiceBusMessageHandler<Order>
{
private readonly ILogger _logger;

public OrdersMessageHandler(ILogger<OrdersMessageHandler> logger)
{
_logger = logger;
}

public async Task ProcessMessageAsync(
Order orderMessage,
AzureServiceBusMessageContext messageContext,
MessageCorrelationInfo correlationInfo,
CancellationToken cancellationToken)
{
_logger.LogInformation("Processing order {OrderId} for {OrderAmount} units of {OrderArticle} bought by {CustomerFirstName} {CustomerLastName}", orderMessage.Id, orderMessage.Amount, orderMessage.ArticleNumber, orderMessage.Customer.FirstName, orderMessage.Customer.LastName);

// Custom logic

_logger.LogInformation("Order {OrderId} processed", orderMessage.Id);
}
}

or with using the more general IMessageHandler<>, that will use the more general MessageContext instead of the one specific for Azure Service Bus.

using Arcus.Messaging.Abstractions;
using Arcus.Messaging.Pumps.Abstractions.MessageHandling;
using Microsoft.Extensions.Logging;

public class OrdersMessageHandler : IMessageHandler<Order>
{
private readonly ILogger _logger;

public OrdersMessageHandler(ILogger<OrdersMessageHandler> logger)
{
_logger = logger;
}

public async Task ProcessMessageAsync(
Order orderMessage,
MessageContext messageContext,
MessageCorrelationInfo correlationInfo,
CancellationToken cancellationToken)
{
_logger.LogInformation("Processing order {OrderId} for {OrderAmount} units of {OrderArticle} bought by {CustomerFirstName} {CustomerLastName}", orderMessage.Id, orderMessage.Amount, orderMessage.ArticleNumber, orderMessage.Customer.FirstName, orderMessage.Customer.LastName);

// Custom logic

_logger.LogInformation("Order {OrderId} processed", orderMessage.Id);
}
}

Other topics:

⚠ The new Azure SDK doesn't yet support Azure Service Bus plugins. See this migration guide for more info on this topic.

Configuration

Once the message handler is created, you can very easily configure it:

using Microsoft.Extensions.DependencyInjection;

public class Startup
{
public void ConfigureServices(IServiceCollection services)
{
// Add Service Bus Queue message pump and use OrdersMessageHandler to process the messages
// - ISecretProvider will be used to lookup the connection string scoped to the queue for secret ARCUS_SERVICEBUS_ORDERS_CONNECTIONSTRING
services.AddServiceBusQueueMessagePump("ARCUS_SERVICEBUS_ORDERS_CONNECTIONSTRING")
.WithServiceBusMessageHandler<OrdersMessageHandler, Order>();

// Add Service Bus Topic message pump and use OrdersMessageHandler to process the messages on the 'My-Subscription-Name' subscription
// - Topic subscriptions over 50 characters will be truncated
// - ISecretProvider will be used to lookup the connection string scoped to the queue for secret ARCUS_SERVICEBUS_ORDERS_CONNECTIONSTRING
services.AddServiceBusTopicMessagePump("My-Subscription-Name", "ARCUS_SERVICEBUS_ORDERS_CONNECTIONSTRING")
.WithServiceBusMessageHandler<OrdersMessageHandler, Order>();

// Note, that only a single call to the `.WithServiceBusMessageHandler` has to be made when the handler should be used across message pumps.
}
}

In this example, we are using the Azure Service Bus message pump to process a queue and a topic and use the connection string stored in the ARCUS_SERVICEBUS_ORDERS_CONNECTIONSTRING connection string.

We support connection strings that are scoped on the Service Bus namespace and entity allowing you to choose the required security model for your applications. If you are using namespace-scoped connection strings you'll have to pass your queue/topic name as well.

Customized Configuration

Next to that, we provide a variety of overloads to allow you to:

  • Specify the name of the queue/topic
  • Only provide a prefix for the topic subscription, so each topic message pump is handling messages on separate subscriptions
  • Configure how the message pump should work (ie. max concurrent calls & auto delete)
  • Read the connection string from the configuration (although we highly recommend using the Arcus secret store instead)
using Microsoft.Extensions.DependencyInjection;

public class Startup
{
public void ConfigureServices(IServiceCollection services)
{
// Specify the name of the Service Bus Queue:
services.AddServiceBusQueueMessagePump(
"My-Service-Bus-Queue-Name",
"ARCUS_SERVICEBUS_ORDERS_CONNECTIONSTRING");

// Specify the name of the Service Bus Topic, and provide a name for the Topic subscription:
services.AddServiceBusMessageTopicMessagePump<OrdersMessageHandler>(
"My-Service-Bus-Topic-Name",
"My-Service-Bus-Topic-Subscription-Name",
"ARCUS_SERVICEBUS_ORDERS_CONNECTIONSTRING");

// Specify a topic subscription prefix instead of a name to separate topic message pumps.
services.AddServiceBusTopicMessagePumpWithPrefix(
"My-Service-Bus-Topic-Name"
"My-Service-Bus-Subscription-Prefix",
"ARCUS_SERVICEBUS_ORDERS_CONNECTIONSTRING");

// Uses managed identity to authenticate with the Service Bus Topic:
services.AddServiceBusTopicMessagePumpUsingManagedIdentity(
topicName: properties.EntityPath,
subscriptionName: "Receive-All",
fullyQualifiedNamespace: "<your-namespace>.servicebus.windows.net"
// The optional client id to authenticate for a user assigned managed identity. More information on user assigned managed identities cam be found here:
// https://docs.microsoft.com/en-us/azure/active-directory/managed-identities-azure-resources/overview#how-a-user-assigned-managed-identity-works-with-an-azure-vm
clientId: "<your-client-id>");

services.AddServiceBusTopicMessagePump(
"ARCUS_SERVICEBUS_ORDERS_CONNECTIONSTRING",
options =>
{
// Indicate whether or not messages should be automatically marked as completed
// if no exceptions occurred and processing has finished (default: true).
options.AutoComplete = true;

// Indicate whether or not the message pump should emit security events (default: false).
options.EmitSecurityEvents = true;

// The amount of concurrent calls to process messages
// (default: null, leading to the defaults of the Azure Service Bus SDK message handler options).
options.MaxConcurrentCalls = 5;

// The unique identifier for this background job to distinguish
// this job instance in a multi-instance deployment (default: guid).
options.JobId = Guid.NewGuid().ToString();

// The name of the Azure Service Bus message property that has the transaction ID.
// (default: Transaction-Id).
options.Correlation.TransactionIdPropertyName = "X-Transaction-ID";

// Indicate whether or not the default built-in JSON deserialization should ignore additional members
// when deserializing the incoming message (default: AdditionalMemberHandling.Error).
options.Deserialization.AdditionalMembers = AdditionalMemberHandling.Ignore;

// Indicate whether or not a new Azure Service Bus Topic subscription should be created/deleted
// when the message pump starts/stops (default: CreateOnStart & DeleteOnStop).
options.TopicSubscription = TopicSubscription.CreateOnStart | TopicSubscription.DeleteOnStop;
});

services.AddServiceBusQueueMessagePump(
"ARCUS_SERVICEBUS_ORDERS_CONNECTIONSTRING",
options =>
{
// Indicate whether or not messages should be automatically marked as completed
// if no exceptions occurred and processing has finished (default: true).
options.AutoComplete = true;

// Indicate whether or not the message pump should emit security events (default: false).
options.EmitSecurityEvents = true;

// The amount of concurrent calls to process messages
// (default: null, leading to the defaults of the Azure Service Bus SDK message handler options).
options.MaxConcurrentCalls = 5;

// The unique identifier for this background job to distinguish
// this job instance in a multi-instance deployment (default: guid).
options.JobId = Guid.NewGuid().ToString();

// The name of the Azure Service Bus message property that has the transaction ID.
// (default: Transaction-Id).
options.Correlation.TransactionIdPropertyName = "X-Transaction-ID";

// Indicate whether or not the default built-in JSON deserialization should ignore additional members
// when deserializing the incoming message (default: AdditionalMemberHandling.Error).
options.Deserialization.AdditionalMembers = AdditionalMembersHandling.Ignore;
});

// Uses managed identity to authenticate with the Service Bus Topic:
services.AddServiceBusQueueMessagePumpUsingManagedIdentity(
queueName: "orders",
serviceBusNamespace: "<your-namespace>"
// The optional client id to authenticate for a user assigned managed identity. More information on user assigned managed identities cam be found here:
// https://docs.microsoft.com/en-us/azure/active-directory/managed-identities-azure-resources/overview#how-a-user-assigned-managed-identity-works-with-an-azure-vm
clientId: "<your-client-id>");

// Multiple message handlers can be added to the services, based on the message type (ex. 'Order', 'Customer'...),
// the correct message handler will be selected.
services.AddServiceBusQueueMessagePump(...)
.WithServiceBusMessageHandler<OrdersMessageHandler, Order>()
.WithMessageHandler<CustomerMessageHandler, Customer>();
}
}

Fallback message handling

When receiving a message on the message pump and none of the registered IAzureServiceBusMessageHandler's can correctly process the message, the message pump normally throws and logs an exception. It could also happen in a scenario that's to be expected that some received messages will not be processed correctly (or you don't want them to).

In such a scenario, you can choose to register a IAzureServiceBusFallbackMessageHandler in the dependency container. This extra message handler will then process the remaining messages that can't be processed by the normal message handlers.

Following example shows how such a message handler can be implemented:

using Arcus.Messaging.Pumps.ServiceBus;
using Arcus.Messaging.Pumps.ServiceBus.MessageHandling;
using Microsoft.Azure.ServiceBus;
using Microsoft.Extensions.Logging;

public class WarnsUserFallbackMessageHandler : IAzureServiceBusFallbackMessageHandler
{
private readonly ILogger _logger;

public WarnsUserFallbackMessageHandler(ILogger<WarnsUserFallbackMessageHandler> logger)
{
_logger = logger;
}

public async Task ProcessMessageAsync(Message message, AzureServiceBusMessageContext context, ...)
{
_logger.LogWarning("These type of messages are expected not to be processed");
}
}

Note that you have access to the Azure Service Bus message and the specific message context. These can be used to eventually call .Abandon() on the message.

And to register such an implementation:

using Microsoft.Extensions.DependencyInjection;

public class Startup
{
public void ConfigureServices(IServiceCollection services)
{
services.AddServiceBusQueueMessagePump(...)
.WithServiceBusFallbackMessageHandler<WarnsUserFallbackMessageHandler>();
}
}

Influence handling of Service Bus message in message handler

When an Azure Service Bus message is received (either via regular message handlers or fallback message handlers), we allow specific Azure Service Bus operations during the message handling. Currently we support Dead letter and Abandon.

During (regular) message handling

To have access to the Azure Service Bus operations, you have to implement the abstract AzureServiceBusMessageHandler<T> class. Behind the screens it implements the IMessageHandler<> interface, so you can register this the same way as your other regular message handlers.

This base class provides several protected methods to call the Azure Service Bus operations:

  • .CompleteMessageAsync
  • .DeadLetterMessageAsync
  • .AbandonMessageAsync

Example:

using Arcus.Messaging.Pumps.ServiceBus;
using Arcus.Messaging.Pumps.ServiceBus.MessageHandling;
using Microsoft.Extensions.Logging;

public class AbandonsUnknownOrderMessageHandler : AzureServiceBusMessageHandler<Order>
{
public AbandonsUnknownOrderMessageHandler(ILogger<AbandonsUnknownOrderMessageHandler> logger)
: base(logger)
{
}

public override async Task ProcessMessageAsync(Order order, AzureServiceBusMessageContext context, ...)
{
if (order.Id < 1)
{
await AbandonMessageAsync();
}
else
{
Logger.LogInformation("Received valid order");
}
}
}

The registration happens the same as any other regular message handler:

using Microsoft.Extensions.DependencyInjection;

public class Startup
{
public void ConfigureServices(IServiceCollection services)
{
services.AddServiceBusQueueMessagePump(...)
.WithServiceBusMessageHandler<AbandonUnknownOrderMessageHandler, Order>();
}
}

During fallback message handling

To have access to the Azure Service Bus operations, you have to implement the abstract AzureServiceBusFallbackMessageHandler class. Behind the scenes it implements the IServiceBusFallbackMessageHandler, so you can register this the same way as any other fallback message handler.

This base class provides several protected methods to call the Azure Service Bus operations:

  • .CompleteAsync
  • .DeadLetterAsync
  • .AbandonAsync

Example:

using Arcus.Messaging.Pumps.ServiceBus;
using Arcus.Messaging.Pumps.ServiceBus.MessageHandling;
using Azure.Messaging.ServiceBus;
using Microsoft.Extensions.Logging;

public class DeadLetterFallbackMessageHandler : AzureServiceBusFallbackMessageHandler
{
public DeadLetterFallbackMessageHandler(ILogger<DeadLetterFallbackMessageHandler> logger)
: base(logger)
{
}

public override async Task ProcessMessageAsync(ServiceBusReceivedMessage message, AzureServiceBusMessageContext context, ...)
{
Logger.LogInformation("Message is not handled by any message handler, will dead letter");
await DeadLetterMessageAsync(message);
}
}

The registration happens the same way as any other fallback message handler:

using Microsoft.Extensions.DependencyInjection;

public class Startup
{
public void ConfigureServices(IServiceCollection services)
{
services.AddServiceBusQueueMessagePump(...)
.WithServiceBusFallbackMessageHandler<DeadLetterFallbackMessageHandler>();
}
}

Alternative Service Bus message routing

By default, when registering the Azure Service Bus message pump a built-in message router is registered to handle the routing throughout the previously registered message handlers.

This router is registered with the IAzureServiceBusMessageRouter interface (which implements the more general IMessageRouter for non-specific Service Bus messages).

When you want for some reason alter the message routing or provide additional functionality, you can register your own router which the Azure Service Bus message pump will use instead.

The following example shows you how a custom router is used for additional tracking. Note that the AzureServiceBusMessageRouter implements the IAzureServiceBusMessageRouter so we can override the necessary implementations.

public class TrackedAzureServiceBusMessageRouter : AzureServiceBusMessageRouter
{
public TrackedAzureServiceBusMessageRouter(IServiceProvider serviceProvider, ILogger<AzureServiceBusMessageRouter> logger)
: base(serviceProvider, logger)
{
}

public override Task ProcessMessageAsync(
ServiceBusReceivedMessage message,
AzureServiceBusMessageContext messageContext,
MessageCorrelationInfo correlationInfo,
CancellationToken cancellationToken)
{
Logger.LogTrace("Start routing incoming message...");
base.ProcessMessageAsync(message, messageContext, correlationInfo, cancellationToken);
Logger.LogTrace("Done routing incoming message!");
}
}

This custom message router can be registered with the following extension:

public void ConfigureServices(IServiceCollection services)
{
services.AddServiceBusMessageRouting(serviceProvider =>
{
var logger = serviceProvider.GetService<ILogger<TrackedAzureServiceBusMessageRouter>>();
return new TrackedAzureServiceBusMessageRouter(serviceProvider, logger);
});

services.AddServiceBusQueueMessagePump(...);
}

Note that your own router should be registered before you register the Azure Message Pump otherwise it cannot be overridden.

Correlation

To retrieve the correlation information of Azure Service Bus messages, we provide an extension that wraps all correlation information.

using Arcus.Messaging.Abstractions;
using Azure.Messaging.ServiceBus;

ServiceBusReceivedMessage message = ...
MessageCorrelationInfo correlationInfo = message.GetCorrelationInfo();

// Unique identifier that indicates an attempt to process a given message.
string cycleId = correlationInfo.CycleId;

// Unique identifier that relates different requests together.
string transactionId = correlationInfo.TransactionId;

// Unique identifier that distinguishes the request.
string operationId = correlationInfo.OperationId;

To retrieve the correlation information in other application code, you can use a dedicated marker interface called IMessageCorrelationInfoAccessor. Note that this is a scoped dependency and so will be the same instance across a scoped operation.

using Arcus.Messaging.Abstractions;

public class DependencyService
{
private readonly IMessageCorrelationInfoAccessor _accessor;

public DependencyService(IMessageCorrelationInfoAccessor accessor)
{
_accessor = accessor;
}

public void Method()
{
MessageCorrelationInfo correlation = _accessor.GetCorrelationInfo();

_accessor.SetCorrelation(correlation);
}
}

Automatic Azure Key Vault credentials rotation

This functionality is moved to Arcus BackgroundJobs.

Want to get started easy? Use our templates!

We provide templates to get started easily:

  • Azure Service Bus Queue Worker Template (docs)
  • Azure Service Bus Topic Worker Template (docs)

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