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Configuring a Windows Communication Foundation (WCF) service with a configuration file gives you the flexibility of providing endpoint and service behavior data at the point of deployment instead of at design time. This topic outlines the primary techniques available.
A WCF service is configurable using the .NET Framework configuration technology. Most commonly, XML elements are added to the Web.config file for an Internet Information Services (IIS) site that hosts a WCF service. The elements allow you to change details such as the endpoint addresses (the actual addresses used to communicate with the service) on a machine-by-machine basis. In addition, WCF includes several system-provided elements that allow you to quickly select the most basic features for a service. Starting with .NET Framework 4, WCF comes with a new default configuration model that simplifies WCF configuration requirements. If you do not provide any WCF configuration for a particular service, the runtime automatically configures your service with some standard endpoints and default binding/behavior. In practice, writing configuration is a major part of programming WCF applications.
For more information, see
Configuring Bindings for Services
. For a list of the most commonly used elements, see
System-Provided Bindings
. For more information about default endpoints, bindings, and behaviors, see
Simplified Configuration
and
Simplified Configuration for WCF Services
.
Important
When deploying side by side scenarios where two different versions of a service are deployed, it is necessary to specify partial names of assemblies referenced in configuration files. This is because the configuration file is shared across all versions of a service and they could be running under different versions of the .NET Framework.
System.Configuration: Web.config and App.config
WCF uses the System.Configuration configuration system of the .NET Framework.
When configuring a service in Visual Studio, use either a Web.config file or an App.config file to specify the settings. The choice of the configuration file name is determined by the hosting environment you choose for the service. If you are using IIS to host your service, use a Web.config file. If you are using any other hosting environment, use an App.config file.
In Visual Studio, the file named App.config is used to create the final configuration file. The final name actually used for the configuration depends on the assembly name. For example, an assembly named "Cohowinery.exe" has a final configuration file name of "Cohowinery.exe.config". However, you only need to modify the App.config file. Changes made to that file are automatically made to the final application configuration file at compile time.
In using an App.config, file the configuration system merges the App.config file with content of the Machine.config file when the application starts and the configuration is applied. This mechanism allows machine-wide settings to be defined in the Machine.config file. The App.config file can be used to override the settings of the Machine.config file; you can also lock in the settings in Machine.config file so that they get used. In the Web.config case, the configuration system merges the Web.config files in all directories leading up to the application directory into the configuration that gets applied. For more information about configuration and the setting priorities, see topics in the
System.Configuration
namespace.
Major Sections of the Configuration File
The main sections in the configuration file include the following elements.
<system.ServiceModel>
<services>
<!-- Define the service endpoints. This section is optional in the new
default configuration model in .NET Framework 4. -->
<service>
<endpoint/>
</service>
</services>
<bindings>
<!-- Specify one or more of the system-provided binding elements,
for example, <basicHttpBinding> -->
<!-- Alternatively, <customBinding> elements. -->
<binding>
<!-- For example, a <BasicHttpBinding> element. -->
</binding>
</bindings>
<behaviors>
<!-- One or more of the system-provided or custom behavior elements. -->
<behavior>
<!-- For example, a <throttling> element. -->
</behavior>
</behaviors>
</system.ServiceModel>
The bindings and behaviors sections are optional and are only included if required.
The <services> Element
The services
element contains the specifications for all services the application hosts. Starting with the simplified configuration model in .NET Framework 4, this section is optional.
<services>
The <service> Element
Each service has these attributes:
name
. Specifies the type that provides an implementation of a service contract. This is a fully qualified name which consists of the namespace, a period, and then the type name. For example "MyNameSpace.myServiceType"
.
behaviorConfiguration
. Specifies the name of one of the behavior
elements found in the behaviors
element. The specified behavior governs actions such as whether the service allows impersonation. If its value is the empty name or no behaviorConfiguration
is provided then the default set of service behaviors is added to the service.
<service>
The <endpoint> Element
Each endpoint requires an address, a binding, and a contract, which are represented by the following attributes:
address
. Specifies the service's Uniform Resource Identifier (URI), which can be an absolute address or one that is given relative to the base address of the service. If set to an empty string, it indicates that the endpoint is available at the base address that is specified when creating the ServiceHost for the service.
binding
. Typically specifies a system-provided binding like WSHttpBinding, but can also specify a user-defined binding. The binding specified determines the type of transport, security and encoding used, and whether reliable sessions, transactions, or streaming is supported or enabled.
bindingConfiguration
. If the default values of a binding must be modified, this can be done by configuring the appropriate binding
element in the bindings
element. This attribute should be given the same value as the name
attribute of the binding
element that is used to change the defaults. If no name is given, or no bindingConfiguration
is specified in the binding, then the default binding of the binding type is used in the endpoint.
contract
. Specifies the interface that defines the contract. This is the interface implemented in the common language runtime (CLR) type specified by the name
attribute of the service
element.
<endpoint>
The <bindings> Element
The bindings
element contains the specifications for all bindings that can be used by any endpoint defined in any service.
<bindings>
The <binding> Element
The binding
elements contained in the bindings
element can be either one of the system-provided bindings (see System-Provided Bindings) or a custom binding (see Custom Bindings). The binding
element has a name
attribute that correlates the binding with the endpoint specified in the bindingConfiguration
attribute of the endpoint
element. If no name is specified then that binding corresponds to the default of that binding type.
For more information about configuring services and clients, see Configuring WCF services.
<binding>
The <behaviors> Element
This is a container element for the behavior
elements that define the behaviors for a service.
<behaviors>
The <behavior> Element
Each behavior
element is identified by a name
attribute and provides either a system-provided behavior, such as <throttling
>, or a custom behavior. If no name is given then that behavior element corresponds to the default service or endpoint behavior.
<behavior>
How to Use Binding and Behavior Configurations
WCF makes it easy to share configurations between endpoints using a reference system in configuration. Rather than directly assigning configuration values to an endpoint, binding-related configuration values are grouped in bindingConfiguration
elements in the <binding>
section. A binding configuration is a named group of settings on a binding. Endpoints can then reference the bindingConfiguration
by name.
<?xml version="1.0" encoding="utf-8"?>
<configuration>
<system.serviceModel>
<bindings>
<basicHttpBinding>
<binding name="myBindingConfiguration1" closeTimeout="00:01:00" />
<binding name="myBindingConfiguration2" closeTimeout="00:02:00" />
<binding closeTimeout="00:03:00" /> <!-- Default binding for basicHttpBinding -->
</basicHttpBinding>
</bindings>
<services>
<service name="MyNamespace.myServiceType">
<endpoint
address="myAddress" binding="basicHttpBinding"
bindingConfiguration="myBindingConfiguration1"
contract="MyContract" />
<endpoint
address="myAddress2" binding="basicHttpBinding"
bindingConfiguration="myBindingConfiguration2"
contract="MyContract" />
<endpoint
address="myAddress3" binding="basicHttpBinding"
contract="MyContract" />
</service>
</services>
</system.serviceModel>
</configuration>
The name
of the bindingConfiguration
is set in the <binding>
element. The name
must be a unique string within the scope of the binding type—in this case the <basicHttpBinding>, or an empty value to refer to the default binding. The endpoint links to the configuration by setting the bindingConfiguration
attribute to this string.
A behaviorConfiguration
is implemented the same way, as illustrated in the following sample.
<?xml version="1.0" encoding="utf-8"?>
<configuration>
<system.serviceModel>
<behaviors>
<endpointBehaviors>
<behavior name="myBehavior">
<callbackDebug includeExceptionDetailInFaults="true" />
</behavior>
</endpointBehaviors>
<serviceBehaviors>
<behavior>
<serviceMetadata httpGetEnabled="true" />
</behavior>
</serviceBehaviors>
</behaviors>
<services>
<service name="NewServiceType">
<endpoint
address="myAddress3" behaviorConfiguration="myBehavior"
binding="basicHttpBinding"
contract="MyContract" />
</service>
</services>
</system.serviceModel>
</configuration>
Note that the default set of service behaviors are added to the service. This system allows endpoints to share common configurations without redefining the settings. If machine-wide scope is required, create the binding or behavior configuration in Machine.config. The configuration settings are available in all App.config files. The Configuration Editor Tool (SvcConfigEditor.exe) makes it easy to create configurations.
Behavior Merge
The behavior merge feature makes it easier to manage behaviors when you want a set of common behaviors to be used consistently. This feature allows you to specify behaviors at different levels of the configuration hierarchy and have services inherit behaviors from multiple levels of the configuration hierarchy. To illustrate how this works assume you have the following virtual directory layout in IIS:
~\Web.config~\Service.svc~\Child\Web.config~\Child\Service.svc
And your ~\Web.config
file has the following contents:
<configuration>
<system.serviceModel>
<behaviors>
<serviceBehaviors>
<behavior>
<serviceDebug includeExceptionDetailInFaults="True" />
</behavior>
</serviceBehaviors>
</behaviors>
</system.serviceModel>
</configuration>
And you have a child Web.config located at ~\Child\Web.config with the following contents:
<configuration>
<system.serviceModel>
<behaviors>
<serviceBehaviors>
<behavior>
<serviceMetadata httpGetEnabled="True" />
</behavior>
</serviceBehaviors>
</behaviors>
</system.serviceModel>
</configuration>
The service located at ~\Child\Service.svc will behave as though it has both the serviceDebug and serviceMetadata behaviors. The service located at ~\Service.svc will only have the serviceDebug behavior. What happens is that the two behavior collections with the same name (in this case the empty string) are merged.
You can also clear behavior collections by using the <clear> tag and removed individual behaviors from the collection by using the <remove> tag. For example, the following two configuration results in the child service having only the serviceMetadata behavior:
<configuration>
<system.serviceModel>
<behaviors>
<serviceBehaviors>
<behavior>
<remove name="serviceDebug"/>
<serviceMetadata httpGetEnabled="True" />
</behavior>
</serviceBehaviors>
</behaviors>
</system.serviceModel>
</configuration>
<configuration>
<system.serviceModel>
<behaviors>
<serviceBehaviors>
<behavior>
<clear/>
<serviceMetadata httpGetEnabled="True" />
</behavior>
</serviceBehaviors>
</behaviors>
</system.serviceModel>
</configuration>
Behavior merge is done for nameless behavior collections as shown above and named behavior collections as well.
Behavior merge works in the IIS hosting environment, in which Web.config files merge hierarchically with the root Web.config file and machine.config. But it also works in the application environment, where machine.config can merge with the App.config file.
Behavior merge applies to both endpoint behaviors and service behaviors in configuration.
If a child behavior collection contains a behavior that’s already present in the parent behavior collection, the child behavior overrides the parent. So if a parent behavior collection had <serviceMetadata httpGetEnabled="False" />
and a child behavior collection had <serviceMetadata httpGetEnabled="True" />
, the child behavior would override the parent behavior in the behavior collection and httpGetEnabled would be "true".
See also
Simplified Configuration
Configuring WCF services
<service>
<binding>