A light .NET distributed application framework with multiple and pluggable backends.
Succubus is a simple (at this point) implementation of convenience functions for .NET on top of ZeroMQ, presenting an interface similar to that of MassTransit.
Because it uses ZeroMQ, all brokers live in the Succubus process space, and you do not install anything besides the dependencies in the library.
These are the current and planned features of Succubus:
Get lastest version of Succubus from GitHub or NuGet.
Relevant packages:
To instantiate a handle to the bus, create an instance of Succubus.Core.Bus
:
IBus bus = new Succubus.Core.Bus();
Each handle will have a separate channel to the message host. Each handle will also have separate event handlers, and synchronous message responses need to be handled on the same bus as the request.
Succubus allows you to get a singleton instance in addition to newing up objects. Note that the singleton object will always (obviously) point to the same instance, while all newed objects will be different. These can co-exist and will use separate message channels:
Bus.Instance.Initialize(config => {
// Manipulate config-handle
});
Before using the bus, it needs to be initialized:
Bus.Instance.Initialize();
The Initialize
-call to the bus alternatively returns a configuration handle.
bus.Initialize(succubus =>
{
succubus.WithZeroMQ();
});
When using the parameterless Initialize call, the bus will be initialized with default values. To actually start the message host, the Succubus.Hosting-assembly must be referenced.
For Succubus to work, it needs a backend. The Loopback backend is always present, so you can initialize like this:
bus.Initialize(succubus => succubus.WithLoopback());
Other backends include ZeroMQ:
bus.Initialize(succubus => succubus.WithZeroMQ(zmq => {
zmq.PublishAddress = "...";
zmq.SubscribeAddress = "...";
}))
If you are also wanting to run a ZeroMQ host in the process, you can:
bus.Initialize(succubus => succubus.WithZeroMQ(zmq => {
zmq.StartMessageHost();
}))
These examples rely on using Succubus.Backend.ZeroMQ
and Succubus.Hosting.ZeroMQ
respectively.
Succubus supports publishing and consuming events. Events are agnostic to where they are posted from and who consumes them. A single event can have multiple consumers.
Publish events by calling the Publish
-method:
bus.Publish(new BasicEvent { Message = "Hi, there! "});
BasicEvent
is a user defined POCO-class:
public class BasicEvent
{
public string Message { get; set; }
}
If you are interested in handling an event, use the On
-method:
bus.On<BasicEvent>(e => {
Console.WriteLine("Got event: {0}", e.Message)
});
Succubus supports two types of synchronous calling; static and transient routes. A transient route is setup as the call is made, and is removed after a call has been processed, while a static route is permanent in the bus.
When using synchronous processing, the client side of the interaction needs to use a variation of the Call
-method and the server side then replies using the ReplyTo
-method.
When a message is presented from the bus after being sent with the Call
-method, it can be handled with the ReplyTo
-method:
bus.ReplyTo<BasicRequest, BasicResponse>(request => {
return new BasicResponse { Message = request.Message + " echoed from server" };
});
Note that BasicRequest
and BasicResponse
are user defined POCO-classes; Succubus will handle any routing information behind the scenes.
Transient routes are simple request/response-pairs.
bus.Call<Request, Response>(new Request { Message = "Hi from client"},
response => {
Console.WriteLine("Got response from server: {0}", response.Message);
});
A transient call with request/response-parameters will register a route and wrap the request/response objects in a SynchronousMessageFrame
which decorates the messages with CorrelationId
s. If multiple responses are made to the same synchronous call, only the first will be handled in the defined response handler, all other messages will be silently discarded.
Static routes allow for reuse of handler structures and more advanced orchestration.
bus.OnReply<BasicRequest, BasicResponse>((request, response) =>
Console.WriteLine("OnReply<TReq, TRes>: Got a response handled on static handler: {0} => {1}",
request.Message,
response.Message));
bus.Call<BasicRequest>(new BasicRequest { Message = "Hello from client"} );
Succubus will store the request until the response arrives, so both can be handled in the same context.
You can setup response filtering through inheritance. Example:
public class BaseResponse
{
public string Message { get; set; }
}
public class SuccessResponse : BaseResponse
{
public SuccessResponse()
{
Message = "All went well";
}
}
public class FailureResponse : BaseResponse
{
public FailureResponse()
{
Message = "What a catastrophic failure.";
}
}
public class Request
{
public string Message { get; set; }
}
With these classes we can setup the handling of the static routes.
bus.ReplyTo<Request,BaseResponse>((req) =>
{
if (failure)
{
return new FailureResponse();
}
else
{
return new SuccessResponse();
}
});
Then, on the client side, we can handle both responses separately:
bus.OnReply<Request, FailureResponse>((req, res) =>
{
Console.WriteLine("Shoot, something went wrong processing the request: {0}", res.Message);
});
bus.OnReply<Request, SuccessResponse>((req, res) =>
{
Console.WriteLine("Everything processed without a hitch: {0}", res.Message);
});
It is also possible to do:
bus.OnReply<Request, BaseResponse>((req, res) =>
{
if (res is FailureResponse) {
// ...
} else if (res is SuccessResponse) {
// ...
}
});
This means you can route incoming responses based on interface-definitions and abstract classes, in addition to obviously concrete classes.
Synchronized processing supports timeout handlers on a per-Call
basis. Example:
bus.Call(new BasicRequest { Message = "Hello! "}, (req) => {
Console.WriteLine("BasicRequest timed out for: {0}", req.Message)
}, 2500); // Timeout in milliseconds
If no parameters are provided, the call will time out silently after one minute. To make a response handler never time out, manually provide the value of 0.
Synchronous processing in Succubus opens up for complex orchestration of up to 7 responses. Example:
bus.OnReply<UpdateRequest,
ImageProcessed,
FriendNotified>((ur, ip, fn) =>
{
Console.WriteLine("New profile image has been processed with response: {0}", ip.Status);
Console.WriteLine("Friends have been notified with response: {0}", fn.Status);
});
Currently not implemented.