Custom Message Encoder: Custom Text Encoder
This sample demonstrates how to implement a custom text message encoder using Windows Communication Foundation (WCF). The TextMessageEncodingBindingElement of WCF supports only the UTF-8, UTF-16 and Big Endean Unicode encodings. The custom text message encoder in this sample supports all platform-supported character encoding that may be required for interoperability. The sample consists of a client console program (.exe), a service library (.dll) hosted by Internet Information Services (IIS) and a text message encoder library (.dll). The service implements a contract that defines a request-reply communication pattern. The contract is defined by the ICalculator
interface, which exposes math operations (Add, Subtract, Multiply, and Divide). The client makes synchronous requests to a given math operation and the service replies with the result. Both client and service uses the CustomTextMessageEncoder
instead of the default TextMessageEncodingBindingElement.
The custom encoder implementation consists of a message encoder factory, a message encoder, a message encoding binding element and a configuration handler, and demonstrates the following:
Building a custom encoder and encoder factory.
Creating a binding element for a custom encoder.
Using the custom binding configuration for integrating custom binding elements.
Developing a custom configuration handler to allow file configuration of a custom binding element.
To set up, build, and run the sample
Ensure that you have performed the One-Time Setup Procedure for the Windows Communication Foundation Samples.
To build the solution, follow the instructions in Building the Windows Communication Foundation Samples.
To run the sample in a single- or cross-machine configuration, follow the instructions in Running the Windows Communication Foundation Samples.
Message Encoder Factory and the Message Encoder
When the ServiceHost or the client channel is opened, the design time component CustomTextMessageBindingElement
creates the CustomTextMessageEncoderFactory
. The factory creates the CustomTextMessageEncoder
. The message encoder operates both in the streaming mode and the buffered mode. It uses the XmlReader and XmlWriter to read and write the messages respectively. As opposed to the optimized XML readers and writers of WCF that support only UTF-8, UTF-16 and Big-Endean Unicode these readers and writers support all platform supported encoding.
The following code example shows the CustomTextMessageEncoder
.
public class CustomTextMessageEncoder : MessageEncoder
{
private CustomTextMessageEncoderFactory factory;
private XmlWriterSettings writerSettings;
private string contentType;
public CustomTextMessageEncoder(CustomTextMessageEncoderFactory factory)
{
this.factory = factory;
this.writerSettings = new XmlWriterSettings();
this.writerSettings.Encoding = Encoding.GetEncoding(factory.CharSet);
this.contentType = string.Format("{0}; charset={1}",
this.factory.MediaType, this.writerSettings.Encoding.HeaderName);
}
public override string ContentType
{
get
{
return this.contentType;
}
}
public override string MediaType
{
get
{
return factory.MediaType;
}
}
public override MessageVersion MessageVersion
{
get
{
return this.factory.MessageVersion;
}
}
public override Message ReadMessage(ArraySegment<byte> buffer, BufferManager bufferManager, string contentType)
{
byte[] msgContents = new byte[buffer.Count];
Array.Copy(buffer.Array, buffer.Offset, msgContents, 0, msgContents.Length);
bufferManager.ReturnBuffer(buffer.Array);
MemoryStream stream = new MemoryStream(msgContents);
return ReadMessage(stream, int.MaxValue);
}
public override Message ReadMessage(Stream stream, int maxSizeOfHeaders, string contentType)
{
XmlReader reader = XmlReader.Create(stream);
return Message.CreateMessage(reader, maxSizeOfHeaders, this.MessageVersion);
}
public override ArraySegment<byte> WriteMessage(Message message, int maxMessageSize, BufferManager bufferManager, int messageOffset)
{
MemoryStream stream = new MemoryStream();
XmlWriter writer = XmlWriter.Create(stream, this.writerSettings);
message.WriteMessage(writer);
writer.Close();
byte[] messageBytes = stream.GetBuffer();
int messageLength = (int)stream.Position;
stream.Close();
int totalLength = messageLength + messageOffset;
byte[] totalBytes = bufferManager.TakeBuffer(totalLength);
Array.Copy(messageBytes, 0, totalBytes, messageOffset, messageLength);
ArraySegment<byte> byteArray = new ArraySegment<byte>(totalBytes, messageOffset, messageLength);
return byteArray;
}
public override void WriteMessage(Message message, Stream stream)
{
XmlWriter writer = XmlWriter.Create(stream, this.writerSettings);
message.WriteMessage(writer);
writer.Close();
}
}
The following code example shows how to build the message encoder factory.
public class CustomTextMessageEncoderFactory : MessageEncoderFactory
{
private MessageEncoder encoder;
private MessageVersion version;
private string mediaType;
private string charSet;
internal CustomTextMessageEncoderFactory(string mediaType, string charSet,
MessageVersion version)
{
this.version = version;
this.mediaType = mediaType;
this.charSet = charSet;
this.encoder = new CustomTextMessageEncoder(this);
}
public override MessageEncoder Encoder
{
get
{
return this.encoder;
}
}
public override MessageVersion MessageVersion
{
get
{
return this.version;
}
}
internal string MediaType
{
get
{
return this.mediaType;
}
}
internal string CharSet
{
get
{
return this.charSet;
}
}
}
Message Encoding Binding Element
The binding elements allow the configuration of the WCF run-time stack. To use the custom message encoder in a WCF application, a binding element is required that creates the message encoder factory with the appropriate settings at the appropriate level in the run-time stack.
The CustomTextMessageBindingElement
derives from the BindingElement base class and inherits from the MessageEncodingBindingElement class. This allows other WCF components to recognize this binding element as being a message encoding binding element. The implementation of CreateMessageEncoderFactory returns an instance of the matching message encoder factory with appropriate settings.
The CustomTextMessageBindingElement
exposes settings for MessageVersion
, ContentType
, and Encoding
through properties. The encoder supports both Soap11Addressing and Soap12Addressing1 versions. The default is Soap11Addressing1. The default value of the ContentType
is "text/xml". The Encoding
property allows you to set the value of the desired character encoding. The sample client and service uses the ISO-8859-1 (Latin1) character encoding, which is not supported by the TextMessageEncodingBindingElement of WCF.
The following code shows how to programmatically create the binding using the custom text message encoder.
ICollection<BindingElement> bindingElements = new List<BindingElement>();
HttpTransportBindingElement httpBindingElement = new HttpTransportBindingElement();
CustomTextMessageBindingElement textBindingElement = new CustomTextMessageBindingElement();
bindingElements.Add(textBindingElement);
bindingElements.Add(httpBindingElement);
CustomBinding binding = new CustomBinding(bindingElements);
Adding Metadata Support to the Message Encoding Binding Element
Any type that derives from MessageEncodingBindingElement is responsible for updating the version of the SOAP binding in the WSDL document generated for the service. This is done by implementing the ExportEndpoint method on the IWsdlExportExtension interface and then modifying the generated WSDL. In this sample, the CustomTextMessageBindingElement
uses the WSDL export logic from the TextMessageEncodingBindingElement
.
For this sample, the client configuration is hand configured. You cannot use Svcutil.exe to generate the client configuration because the CustomTextMessageBindingElement
does not export a policy assertion to describe its behavior. You should generally implement the IPolicyExportExtension interface on a custom BindingElement
to export a custom policy assertion that describes the behavior or capability implemented by the BindingElement
. For an example of how to export a policy assertion for a custom BindingElement
, see the Transport: UDP sample.
Message Encoding Binding Configuration Handler
The previous section shows how to use the custom text message encoder programmatically. The CustomTextMessageEncodingBindingSection
implements a configuration handler that allows you to specify the use of a custom text message encoder within a configuration file. The CustomTextMessageEncodingBindingSection
class derives from the BindingElementExtensionElement class. The BindingElementType
property informs the configuration system of the type of binding element to create for this section.
All of the settings defined by CustomTextMessageBindingElement
are exposed as the properties in the CustomTextMessageEncodingBindingSection
. The ConfigurationPropertyAttribute assists in mapping the configuration element attributes to the properties and setting default values if the attribute is not set. After the values from configuration are loaded and applied to the properties of the type, the CreateBindingElement method is called, which converts the properties into a concrete instance of a binding element.
This configuration handler maps to the following representation in the App.config or Web.config for the service or client.
<customTextMessageEncoding encoding="utf-8" contentType="text/xml" messageVersion="Soap11Addressing1" />
The sample uses the ISO-8859-1 encoding.
To use this configuration handler it must be registered using the following configuration element:
<extensions>
<bindingElementExtensions>
<add name="customTextMessageEncoding" type="
Microsoft.ServiceModel.Samples.CustomTextMessageEncodingBindingSection,
CustomTextMessageEncoder" />
</bindingElementExtensions>
</extensions>
Send comments about this topic to Microsoft.
© Microsoft Corporation. All rights reserved.