Contact Us 1-800-596-4880

Migrating HTTP Connector Uses

This version of Mule reached its End of Life on May 2, 2023, when Extended Support ended.

Deployments of new applications to CloudHub that use this version of Mule are no longer allowed. Only in-place updates to applications are permitted.

MuleSoft recommends that you upgrade to the latest version of Mule 4 that is in Standard Support so that your applications run with the latest fixes and security enhancements.

For the most part, the HTTP connector has just been adapted to the Mule 4 model:

  • Configuration properties have been moved to a connection component when applicable.

  • Message processors have been refactored into proper operations.

  • Outbound properties such as http.status have been removed in favor of explicit properties.

  • Inbound properties such as http.queryParams have been removed in favor of HTTP specific message attributes.

  • Threading configuration has been removed since it’s now all handled at the Mule Runtime level.

  • Special handling for application/x-www-form-urlencoded and multipart/* media types has been removed in favor of DataWeave.

  • RAML metadata support has been removed from the HTTP request operation in favor of REST Connect.

HTTP Listener

The HTTP Listener has only seen major changes in the configuration of its response builders, as well as the encapsulation of its configuration properties into a specific connection component.

Configuration

The following properties and components must now be defined within an inner http:listener-connection component:

  • host

  • port

  • protocol

  • usePersistentConnections

  • connectionIdleTimeout

  • TLS Context

Mule 3 example
<http:listener-config name="listenerConfig" host="localhost" port="8081" basePath="api/v2" protocol="HTTPS">
  <tls:context>
    <tls:trust-store path="cacerts.jks" password="changeit"/>
    <tls:key-store path="keystore.jks" keyPassword="changeit" password="changeit"/>
  </tls:context>
</http:listener-config>
Mule 4 example
<http:listener-config name="listenerConfig" basePath="api/v2">
  <http:listener-connection host="localhost" port="8081" protocol="HTTPS">
    <tls:context>
        <tls:trust-store path="cacerts.jks" password="changeit"/>
        <tls:key-store path="keystore.jks" keyPassword="changeit" password="changeit"/>
    </tls:context>
  </http:listener-connection>
</http:listener-config>

Listener

All HTTP Listener properties remain the same except for the http:response-builder and http:error-response-builder. These have been renamed to simply http:response and http:error-response, and now require the headers to be defined through a single expression while removing support for implicit outbound properties handling. Additionally, they support a new http:body component where an expression can be used to define the outgoing HTTP message body.

Mule 3 example

In the following example, a number of User-Agent headers are sent in a response set up through an implicit outbound property (Mule 3.6.0), a single header reference (Mule 3.7.0) and an expression reference (Mule 3.8.0 and Mule 3.9.0). An error response, on the other hand, will feature a Date header as well as the outbound property for User-Agent.

<flow name="listener">
  <http:listener config-ref="listenerConfig" path="/">
    <http:response-builder statusCode="201" reasonPhrase="everything works!">
      <http:header headerName="User-Agent" value="Mule 3.7.0"/>
      <http:headers expression="['User-Agent': ['Mule 3.8.0', 'Mule 3.9.0']]"/>
    </http:response-builder>
    <http:error-response-builder statusCode="500" reasonPhrase="something went wrong">
      <http:header headerName="Date" value="#[server.dateTime]"/>
    </http:error-response-builder>
  </http:listener>
  ...
  <set-property propertyName="User-Agent" value="Mule 3.6.0"/>
</flow>
Mule 4 example

Notice that while statusCode and reasonPhrase properties remain the same, all headers should now be explicitly added using a DataWeave expression. It’s important to note that explicit statusCode and reasonPhrase must be provided as well to replace usages of outbound properties http.status and http.reason.

<flow name="listener">
  <http:listener config-ref="listenerConfig" path="/">
    <http:response statusCode="201" reasonPhrase="everything works!">
      <http:headers>
        #[{
          'User-Agent' : 'Mule 3.6.0',
          'User-Agent' : 'Mule 3.7.0',
          'User-Agent' : 'Mule 3.8.0',
          'User-Agent' : 'Mule 3.9.0'
          }]
      </http:headers>
    </http:response>
    <http:error-response statusCode="500" reasonPhrase="something went wrong">
      <http:headers>
        #[{
          'User-Agent': 'Mule 3.6.0',
          'Date': now()
        }]
      </http:headers>
    </http:error-response>
  </http:listener>
  ...
</flow>

Attributes

Following the new Mule Message structure, the HTTP listener now provides all request metadata through specific HTTP Request Attributes. Below you can find the new ways of accessing that metadata compared to Mule 3.

Metadata Mule 3 Mule 4

Method

#[inboundProperties.'http.method']

#[attributes.method]

Path

#[inboundProperties.'http.listener.path']

#[attributes.listenerPath]

Relative Path

#[inboundProperties.'http.relative.path']

#[attributes.relativePath]

Request URI

#[inboundProperties.'http.request.uri']

#[attributes.requestUri]

Query String

#[inboundProperties.'http.query.string']

#[attributes.queryString]

Query Parameters

#[inboundProperties.'http.query.params']

#[attributes.queryParams]

URI Parameters

#[inboundProperties.'http.uri.params']

#[attributes.uriParams]

Version

#[inboundProperties.'http.version']

#[attributes.version]

Scheme

#[inboundProperties.'http.scheme']

#[attributes.scheme]

Headers

#[inboundProperties]

#[attributes.headers]

Remote Address

#[inboundProperties.'http.remote.address']

#[attributes.remoteAddress]

Client Certificate

#[inboundProperties.'http.client.cert']

#[attributes.clientCertificate]

Notice that while the HTTP headers were mapped directly into inbound properties, now they have an exclusive object. Below you can find an example of how to obtain a header:

  • Mule 3: #[inboundProperties.'host']

  • Mule 4: #[attributes.headers.'host']

HTTP Request

Like the HTTP listener, most changes in the HTTP request operation regard the encapsulation of configuration properties within a connection component and the request building process.

Configuration

The following properties and components must now be defined within an inner http:request-connection component:

  • host

  • port

  • protocol

  • usePersistentConnections

  • maxConnections

  • connectionIdleTimeout

  • streamResponse

  • responseBufferSize

  • HTTP Authentication

  • HTTP Proxy

  • TLS Context

  • TCP Client Socket Properties

Mule 3 example
<http:request-config name="requestConfig" host="localhost" port="8081" protocol="HTTPS" enableCookies="false">
  <tls:context>
    <tls:trust-store path="trustStore" password="changeit"/>
    <tls:key-store path="clientKeystore" keyPassword="changeit" password="changeit"/>
  </tls:context>
</http:request-config>
Mule 4 example
<http:request-config name="requestConfig" enableCookies="false">
  <http:request-connection host="localhost" port="8081" protocol="HTTPS">
    <tls:context>
      <tls:trust-store path="trustStore" password="changeit"/>
      <tls:key-store path="clientKeystore" keyPassword="changeit" password="changeit"/>
    </tls:context>
  </http:request-connection>
</http:request-config>

Note that RAML metadata support has been removed because REST Connect can now generate a specific connector for a given RAML, which can then be reused.

HTTP Authentication

In addition to now belonging in the http:request-connection component, the HTTP authentication configuration must be placed within an http:authentication component. This applies to all authentication types supported: basic, digest, NTLM and OAuth2.

Mule 3 example
<http:request-config name="basicConfig" host="localhost" port="8081">
  <http:basic-authentication username="#[flowVars.user]" password="#[flowVars.password]" preemptive="#[flowVars.preemptive]" />
</http:request-config>
Mule 4 example
<http:request-config name="basicConfig">
  <http:request-connection host="localhost" port="8081">
    <http:authentication>
      <http:basic-authentication username="#[vars.user]" password="#[vars.password]" preemptive="#[vars.preemptive]" />
    </http:authentication>
  </http:request-connection>
</http:request-config>

HTTP Proxy

Just like the HTTP Authentication component, configuring an HTTP proxy now requires a wrapping http:proxy-config component, for all kinds of proxies.

Mule 3 example
<http:request-config name="proxyConfig" host="localhost" port="8081" basePath="basePath">
  <http:proxy host="localhost" port="8082" username="cniehaus" password="324B21" />
</http:request-config>
Mule 4 example
<http:request-config name="proxyConfig" basePath="basePath">
  <http:request-connection host="localhost" port="8081">
    <http:proxy-config>
      <http:proxy host="localhost" port="8082" username="cniehaus" password="324B21" />
    </http:proxy-config>
  </http:request-connection>
</http:request-config>

TCP Client Socket Properties

In Mule 3, TCP client socket properties were defined based in the TCP transport which has been replaced in Mule 4 by the Sockets Connector, so now that is required to configure the properties. Additionally, the properties must be wrapped in an http:client-socket-properties component.

Mule 3 example
<http:request-config name="tcpConfig" host="localhost" port="8081" >
    <tcp:client-socket-properties connectionTimeout="1000" keepAlive="true"
                                  receiveBufferSize="1024" sendBufferSize="1024"
                                  sendTcpNoDelay="true" timeout="1000" linger="1000" />
</http:request-config>
Mule 4 example
<http:request-config name="tcpConfig">
  <http:request-connection host="localhost" port="8081">
    <http:client-socket-properties>
        <sockets:tcp-client-socket-properties connectionTimeout="1000" keepAlive="true"
                                              receiveBufferSize="1024" sendBufferSize="1024"
                                              sendTcpNoDelay="true" clientTimeout="1000" linger="1000" />
    </http:client-socket-properties>
  </http:request-connection>
</http:request-config>

Request

All HTTP request properties remain the same except for the source which has between replaced by an http:body component supporting expressions and transformations and the http:request-builder which has been removed. Headers, query and URI parameters should now be defined explicitly through DataWeave expressions.

Mule 3 example
<flow name="request">
  ...
  <set-property propertyName="Host" value="www.example.com"/>
  <http:request config-ref="requestConfig" path="song/{id}" method="GET" source="#[flowVars.customSource]">
    <http:request-builder>
      <http:header headerName="Transfer-Encoding" value="chunked" />
      <http:uri-param paramName="id" value="#[flowVars.songId]" />
      <http:query-params expression="#[flowVars.params]" />
    </http:request-builder>
  </http:request>
  ...
</flow>
Mule 4 example
<flow name="request">
  ...
  <http:request config-ref="requestConfig" path="song/{id}" method="GET">
    <http:body>
      #[vars.customSource]
    </http:body>
    <http:headers>
      #[{
        'Host': 'www.example.com'
        'Transfer-Encoding' : 'chunked'
      }]
    </http:headers>
    <http:uri-params>
      #[{ 'id' : vars.songId }]
    </http:uri-params>
    <http:query-params>
      #[vars.params]
    </http:query-params>
  </http:request>
  ...
</flow>

Attributes

Like the HTTP Listener , the HTTP request now provides all response metadata through specific HTTP Response Attributes. Below you can find the new ways of accessing that metadata compared to Mule 3.

Metadata Mule 3 Mule 4

Status Code

#[inboundProperties.'http.status']

#[attributes.statusCode]

Reason Phrase

#[inboundProperties.'http.reason']

#[attributes.reasonPhrase]

Headers

#[inboundProperties]

#[attributes.headers]

Notice that headers are treated just like in the HTTP Listener.

HTTP Static Resource Handler

The HTTP Static Resource Handler has been adapted to Mule 4’s operation model and renamed to http:load-static-resource. The resourceBase property has also been renamed to resourceBasePath.

Mule 3 example
<flow name="main-http-root">
  <http:listener config-ref="listenerConfig" path="*"/>
  <http:static-resource-handler resourceBase="site" defaultFile="index.html"/>
</flow>
Mule 4 example
<flow name="main-http-root">
  <http:listener config-ref="listenerConfig" path="*"/>
  <http:load-static-resource resourceBasePath="site" defaultFile="index.html" />
</flow>

Though this operation is only meant to be used with an HTTP Listener source, we’ve also introduced an attributes property where you can reference the HTTP request attributes of the listener and thus use the operation in any point of the flow.

HTTP Basic Security Filter

The HTTP Basic Security Filter has not been changed except to support DataWeave as a source for the securityProviders property and the introduction of an attributes property where you can reference the HTTP request attributes of the listener and thus use the operation in any point of the flow, just like the HTTP load static resource operation.

Mule 3 example
<flow name="listenerBasicAuth">
  <http:listener config-ref="listenerConfigBasicAuth" path="/basic" />
  <http:basic-security-filter realm="mule-realm" securityProviders="provider1,provider2"/>
  <set-payload value="Ok"/>
</flow>
Mule 4 example
<flow name="listenerBasicAuth">
  <http:listener config-ref="listenerConfigBasicAuth" path="/basic"/>
  <http:basic-security-filter realm="mule-realm" securityProviders="#['provider1', 'provider2']"/>
  <set-payload value="Ok"/>
</flow>

See Configure LDAP Provider for Spring Security for a complete configuration example.

HTTP MIME Type Parsing

The HTTP connector in Mule 3 featured options to parse requests and responses when bodies of type application/x-www-form-urlencoded or multipart/form-data (and other subtypes) were received. When the parsed objects where encountered on outbound requests and responses, they were transformed back into those types of bodies for consistency. However, since DataWeave 2.0 now handles those MIME types, in Mule 4 HTTP parsing has been removed and HTTP components always provide and require binary data streams. Below you can find details on how to migrate uses of the formerly parsed types.

application/x-www-form-urlencoded

In Mule 3, a Map payload was used as a counterpart of application/x-www-form-urlencoded content. For outbound traffic, that meant that if a Map payload was present, then each key-value pair would be used to generate an application/x-www-form-urlencoded body. For inbound traffic, it meant that each key-value pair of that body would be put in a Map.

Now, DataWeave can read and write application/x-www-form-urlencoded content, making it easier and more consistent to work with different MIME types in HTTP.

Mule 3 example

In this example, a payload of song=Snow+Poems&artist=TQP is sent and returned featuring an ID with which it was saved: song=Snow+Poems&artist=TQP&id=49.

<flow name="urlForm">
  <set-payload value="#[{'song': 'Snow Poems', 'artist' : 'TQP'}]"/>
  <http:request config-ref="config" path="song" method="POST" />
  <set-payload value="#[payload.id]"/>
</flow>
Mule 4 example

Notice that the syntax for reading the content remains the same except that now we must indicate an output type since we are actually transforming data.

<flow name="urlForm">
  ...
  <http:request config-ref="config" path="song" method="POST">
    <http:body>
      #[
      %dw 2.0
      output application/x-www-form-urlencoded
      ---
      {
        song: "Snow Poems",
        artist: "TQP"
      }]
    </http:body>
  </http:request>
  <set-payload value="#[output text/plain --- payload.id]"/>
  ...
</flow>

Several values for a key can be added, just keep in mind accessing that data requires using the star selector to get the collection of all associated values: #[payload.*artist] would return a list with David Bowie and Queen for the song Under Pressure, for example.

multipart/*

Mule Message attachments were used in Mule 3 as a counterpart of multipart content. For outbound traffic that meant that if attachments were present then those would be use as parts of a multipart/form-data body. For inbound traffic it meant that each part of that body would be mapped to a Mule Message attachment.

In Mule 4, Mule Message attachments no longer exist. Instead, you can read and write multipart content through DataWeave as you would with JSON or XML content.

Mule 3 example

In this example, a multipart/form-data body is received featuring 2 JSON parts, an order and a partner who has generated it. After logging the partner name, the order ID is saved to generate a multipart/form-data response featuring a simple message acknowledging the order and a PDF receipt generated for it.

<flow name="parts">
  <http:listener config-ref="listenerConfig" path="orders"/>
  <set-variable variableName="partner" value="#[message.inboundAttachments.partner.dataSource.inputStream]" mimeType="application/json"/>
  <dw:transform-message>
    <dw:set-variable variableName="partnerName"><![CDATA[
      %dw 1.0
      %output application/java
      ---
      flowVars.partner.name
    ]]></dw:set-variable>
  </dw:transform-message>
  <logger message="Received order from #[flowVars.partnerName]." level="INFO"/>
  <set-payload value="#[message.inboundAttachments.order.dataSource.inputStream]" mimeType="application/json"/>
  <dw:transform-message>
    <dw:set-variable variableName="orderId"><![CDATA[
      %dw 1.0
      %output application/java
      ---
      payload.id
    ]]></dw:set-variable>
  </dw:transform-message>
  <!-- Generate PDF receipt -->
  <set-attachment attachmentName="order" value="#['Order ' + flowVars.orderId +' received. Receipt available.']" contentType="text/plain"/>
  <set-attachment attachmentName="receipt" value="#[payload]" contentType="application/pdf"/>
</flow>
Mule 4 example

All the complexity of handling the attachments is now gone, and we just access the parts by name using the content keyword. The multipart response is generated in the HTTP response body using DataWeave, where you can easily customize headers.

<flow name="parts">
  <http:listener config-ref="listenerConfig" path="orders">
    <http:response>
      <http:body><![CDATA[
      #[
      %dw 2.0
      output multipart/form-data
      ---
      {
        parts : {
          order : {
            headers : {
              "Content-Type": "text/plain"
            },
            content : "Order " ++ vars.orderId ++ " received. Receipt available."
          },
          receipt : {
            headers : {
              "Content-Disposition" : {
                "name" : "receipt",
                "filename": "receipt.pdf"
              },
              "Content-Type" : payload.^mimeType
            },
            content : payload
          }
        }
      }]
    ]]></http:body>
    </http:response>
  </http:listener>
  <logger message="#[output text/plain --- 'Received order from ' ++ payload.parts.partner.content.name]"/>
  <set-variable variableName="orderId" value="#[output text/plain --- payload.parts.order.content.id]"/>
  <!-- Generate PDF receipt -->
</flow>

It’s important to notice that while we are taking advantage of the http:body feature, the same result could be achieved using a final transform component. Note that the boundary is autogenerated, which results in a correct content-type header. For details, see Multipart Format (Form-Data). == See Also