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Posted 31 Aug 2004

A Pinch Over .NET Remoting

, 31 Aug 2004
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This article briefs about .NET Remoting.


Over a period of time, the perception of building applications is changing very rapidly whatever it may be, either desktop applications, web applications, or distributed applications. Nowadays, it has become the practice to build applications as a set of components that are distributed across a network of machines and work together as if all the sets of components are available from the single machine. Traditionally, distributed application logic known for DCOM, CORBA or RMI, laid a reliable and scalable platform to meet the growing needs of applications.

These component-based technologies work very well in an intranet environment. Only thing is we cannot use this technology over the Internet because the technologies do not interoperate.

A pinch over Webservices Vs. Remoting

Browser-based Web applications, in contrast, are loosely coupled and remarkably interoperable. They communicate using HTTP to exchange MIME-typed data in a wide range of formats. Web services adapt the traditional Web programming model for use from all sorts of applications, not just browser based ones. They exchange SOAP messages using HTTP and other Internet protocols. Because web services rely on industry standards, including HTTP, XML, SOAP, and WSD, to expose applications' functionality on the Internet, they are independent of programming language, platform, and device.

Thanks to Microsoft inventing of ASP.NET Web services and .NET Remoting. Web services infrastructure provides a simple API for Web services based on mapping SOAP messages to method invocations. This is achievable by providing a very simple programming model based on mapping SOAP message exchanges to individual method invocations. The clients of Web services do not have to know anything about the platform, object model, or programming language used to build them, and vice versa (i.e., the services also unaware of the clients sending them messages). Only thing is both the parties should follow a protocol on the format of the SOAP message being produced and consumed.

Remoting Architecture:

.NET Remoting provides an infrastructure for distributed objects. It exposes full object semantics of .NET to remote processes using plumbing that is both flexible and extensible. .NET Remoting offers much more complex functionality, including support for passing objects by value or by reference, callbacks, and multiple-object activation and lifecycle management policies. In order to use .NET Remoting, a client needs to be built using .NET.

To put in simple words, using object references to communicate between server objects and clients is the heart of Remoting. The Remoting architecture, however, provides the programmer with an even simpler procedure. If anyone configures the client properly, we need only to create a new instance of the remote object using the new keyword, then client receives a reference to the server object, and rest of the things are as usual (like invoking methods) as though the object were in your process though it is running on a separate computer.

Suppose we have an application running on one computer, and we want to use the functionality exposed by a type that is stored on another computer; below depicted is a typical Remoting scenario:

.Net Architecture

Data Marshalling:

How the data is getting marshaled. We discuss the same in below:

Serialization and Metadata:

All distributed communication plumbing ultimately does two things:

  1. Marshals instances of programmatic data types into messages that can be sent across the network, it is accomplished using some form of serialization engine or marshaller.
  2. Provides a description of what those messages look like, it is achieved through some form of metadata.

For instance, for most DCOM interfaces, the serialization engine was the Type Library Marshaler and type libraries provide the metadata.

The key difference between ASP.NET web services and .NET Remoting is in how they serialize data into messages and the format they choose for metadata.

How .NET Remoting Marshals Data

.NET Remoting relies on the pluggable implementations of the IFormat interface used by the System.Runtime.Serialization engine to marshal data to and from messages. .NET Framework provides two standard formatters:

  1. System.Runtime.Serialization.Formatters.Binary.BinaryFormatter
  2. System.Runtime.Serialization.Formatters.Soap.SoapFormatter

The BinaryFormatter and SoapFormatter as the names suggest marshal types in binary and SOAP format respectively. For metadata, .NET Remoting relies on the CLR assemblies, which contain all the relevant information about the data types they implement, and expose it via reflection. The reliance on the assemblies for metadata makes it easy to preserve the full runtime type-system reliability. As a result, when the .NET Remoting marshals data, it includes all of a class’ public and private members.

However, as we mentioned above, relying on runtime metadata for marshalling also limits the reach of a .NET Remoting system - as client has to understand .NET constructs in order to communicate with a .NET Remoting endpoint.


As an addition to the flavor, the .NET Remoting layer supports pluggable channels how messages are sent. There are two standard channels for the message transfer, independent of format (i.e. Binary format or SOAP format). Both TCP Channel and HTTP Channel provide an implementation for a sender-receiver channel that uses the HTTP protocol to transmit messages.

.NET Remoting Objects

As mentioned above in the state management options, there are three types of objects that can be configured to serve as .NET remote objects. Choose the type of object depending on the requirement of the application.

  • Single Call: Single Call objects service one and only one request coming in. Single Call objects are useful in scenarios where the objects are required to do a limited amount of work. Single Call objects are not required to store state information; in fact, they cannot hold state information between method calls.
  • Singleton Objects: These objects service multiple clients and hence share data by storing state information between client invocations. They are useful in cases in which data needs to be shared explicitly between clients.
  • Client-Activated Objects: These objects are server-side objects that are activated upon request from the client. When the client submits a request for a server object using “new” operator, an activation request message is sent to the remote application. The server then creates an instance of the requested class and returns an ObjRef back to the client by using which proxy is then created. These objects can store state information between method calls for its specific client. Each invocation of “new” returns a proxy to an independent instance of the server type.

Life Time of Remote Object

In typical, for the objects that have object references that are transported outside the application, a lease is created. The lease has a lease time; when the lease reaches zero, it expires and the object is disconnected from the .NET Remoting Framework. Once all the references to the object within the AppDomain have been freed, the object will be collected when the next garbage collection occurs. The lease controls the lifetime of the object.

To sum up points:

  • .NET Remoting favors the runtime type system and provides a more complex programming model with much more limited reach.
  • .NET Remoting gives the flexibility to host remote objects in any type of application including a Windows Form, a managed Windows Service, a console application, or the ASP.NET worker process. Both the channels (TCP and HTTP) provide communication between sending and receiving processes using sockets.
  • .NET Remoting infrastructure is extensible. It is possible to filter inbound and outbound messages, control aspects of type marshaling and metadata generation. It is possible to implement custom formatters and channels using .NET Remoting.
  • .NET Remoting, hosted in IIS with ASP.NET, can leverage all the security features available to ASP.NET Web Services. If we use TCP or HTTP channel hosted in processes other than aspnet_wp.exe, we have to implement authentication, authorization and privacy mechanisms by our own.
  • .NET Remoting supports a range of state management options (depends on object lifetime scheme: SingleCall or Singleton objects).
  • In terms of performance, .NET Remoting provides the fastest communication when we use TCP channel and the binary formatter.

Building the sample application:

In the below example, the remote object exposes two methods for adding and subtracting given two numbers.

Building an application that uses .NET Remoting to communicate across application domain boundaries is very straightforward:

  1. You must have an implementation of a remotable type.
  2. A listening or host application domain.
  3. A client or calling application domain.
  4. And you must configure the remoting system in each application domain to use remote activation for the remotable type.

The above process applies no matter how complex or simple the remoting scenario becomes.

We discuss each of the above here:

Building Remotable Type

We discuss in brief about how to build the remotable type. To enable objects in other application domains to use an instance of the class, the class must inherit from MarshalByRefObjet. The following code example shows a simple object that can be created and invoked from objects executing in another application domain.


using System;
public class MathLibrary : MarshalByRefObject
 private int result;
 public int AddTwoNumber(int num1, int num2)
  result = num1 + num2;
  return result;
 public int SubtractTwoNumber(int num1, int num2)
  result = num1 - num2;
  return result;

Store the above file as MathLibrary.cs in your own directory. Compile this file as a DLL from the command prompt as below:

csc /noconfig /t:library MathLibrary.cs.

Building a Host Application

Our job is not over by simply creating MathLibrary. To create instances of this object remotely, you must build a host or listener application which does two things:

  • Choose and register a channel, which is an object that handles the networking protocols and serialization formats.
  • Register your type with the .NET Remoting system so that it can use your channel to listen for requests for your type.

Since remote configuration is done on a per-application-domain basis, the application domain must be running to listen for requests.

One important thing is that unlike COM, Remoting does not start the host or server application by its own.

The following code implements a simple MathLibrary host application domain that uses a configuration file.


using System;
using System.Runtime.Remoting;

public class Listener
 public static void Main()
        Console.WriteLine ("Listening for requests. Press Enter to exit...");

Store the above code as Listener.cs in the same directory as where MathLibrary.dll is created. Compile Listener.cs with reference to MathLibrary.dll as below:

csc /noconfig /r:MathLibrary.dll Listener.cs.

Since the above code snippet uses Listener.exe.config file to listen to its remotable type, we need to create the Listener.exe.config file in the same directory where we created the Listener.exe.




               type="MathLibrary, MathLibrary"


            <channel ref="http" port="8989"/>

Building a Client Application:

Till now, we have created MathLibrary and the host application for Remoting. Our application must register itself as a client for the remote object, and then invoke it as residing in the client application domain. The .NET Remoting system intercepts the client calls, forwards them to the remote object, and returns the results to your client.


using System;
using System.Runtime.Remoting;

public class Client
  public static void Main()
    MathLibrary lib = new MathLibrary();
    Console.WriteLine("Enter Number1:");
    string num1 = Console.ReadLine();
    Console.WriteLine("Enter Number2:");
    string num2 = Console.ReadLine();

Store the above code as Client.cs in the same directory as where Client.exe is created. Compile Client.cs with reference to MathLibrary.dll as below:

csc /noconfig /r:MathLibrary.dll Listener.cs

Since the above code snippet uses Client.exe.config file to listen to its remotable type, we need to create the Client.exe.config file in the same directory where we created the Client.exe.



               type="MathLibrary, MathLibrary"



Now, every thing is ready to run your application:

From the command prompt (from the directory where you created the Client.exe and Listener.exe), type Listener.exe.


This article has no explicit license attached to it but may contain usage terms in the article text or the download files themselves. If in doubt please contact the author via the discussion board below.

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Comments and Discussions

GeneralNice Remoting Pin
Vimalsoft(Pty) Ltd5-May-08 4:28
professionalVimalsoft(Pty) Ltd5-May-08 4:28 
QuestionCan you use WebClient when using Remoting? Pin
The Liquidian20-Sep-05 7:35
memberThe Liquidian20-Sep-05 7:35 
GeneralRomting trouble using Images Pin
The Liquidian15-Sep-05 5:53
memberThe Liquidian15-Sep-05 5:53 
GeneralRe: Romting trouble using Images Pin
chaiguy133718-Mar-08 17:12
memberchaiguy133718-Mar-08 17:12 
GeneralRe: Romting trouble using Images Pin
The Liquidian19-Mar-08 12:04
memberThe Liquidian19-Mar-08 12:04 
GeneralRe: Romting trouble using Images Pin
chaiguy133719-Mar-08 13:16
memberchaiguy133719-Mar-08 13:16 
Generalmathlibrary.dll Pin
praneetha16-May-05 5:53
memberpraneetha16-May-05 5:53 
GeneralRe: mathlibrary.dll Pin
Love Kumar29-May-06 22:13
memberLove Kumar29-May-06 22:13 
GeneralLiitle clarification Pin
SavitruNarayan26-Apr-05 3:57
memberSavitruNarayan26-Apr-05 3:57 
GeneralRe: Liitle clarification Pin
Yaron Sh10-Aug-05 11:20
memberYaron Sh10-Aug-05 11:20 
GeneralRe: Liitle clarification Pin
Love Kumar29-May-06 22:13
memberLove Kumar29-May-06 22:13 
Generalusing .NET remoting how do i get client host Pin
nat_pinchasi20-Jan-05 12:52
membernat_pinchasi20-Jan-05 12:52 
GeneralNice article Pin
PrasadGVL6-Jan-05 23:40
memberPrasadGVL6-Jan-05 23:40 

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