Play SOAP allows a Play application to make calls on a remote web service using SOAP. It provides a reactive interface to doing so, making HTTP requests asynchronously and returning promises/futures of the result.
Play SOAP builds on the JAX WS spec, but doesn’t implement it exactly. JAX WS, while it does have support for making asynchronous calls, this support is somewhat clumsy, requiring all asynchronous methods to have an Async suffix, and requiring the passing of an AsyncHandler argument to handle the response, which makes it awkward to integrate into an asynchronous framework since AsyncHandler’s do not compose well with other asynchronous constructs. This support could be described as a second class citizen, bolted on to the spec as an after thought.
In contrast, Play SOAP provides asynchronous invocation of SOAP services as a first class citizen. Play SOAP methods all return promises, making them easy to compose with promises from other libraries, and allowing application code to be focused on business logic, not on wiring asynchronous callbacks together.
Play SOAP is an sbt plugin that transforms WSDLs into SOAP client interfaces, and provides a client library that takes Play SOAP generated interfaces and dynamically implements them to make calls on remote services. The sbt plugin is called SbtWsdl
, and this is the starting point to installing and using Play SOAP.
To install sbt WSDL into your Play project, add the following lines to your project/plugins.sbt
:
resolvers += Resolver.url("play-sbt-plugins", url("https://dl.bintray.com/playframework/sbt-plugin-releases/"))(Resolver.ivyStylePatterns)
addSbtPlugin("com.typesafe.sbt" % "sbt-play-soap" % "1.1.4")
For more information about how to use Play SOAP, see the documentation.
There are a number of distinct parts to this, not all of them need to be implemented to have a viable product:
Feature | Importance | Status | Description |
---|---|---|---|
Client proxy | Required | PoC | Given an interface that returns responses as scala.concurrent.Future or java.util.concurrent.CompletionStage , generate an asynchronous web services client that implements it. |
wsdl2java | Required | Not started | sbt plugin that, given a wsdl, generates the above interface |
WS backend | Low | Not started | Implement the cxf http backend using Play's WS API |
Scala binding | Medium | Not started | Allow the use of Scala case classes, collections, option etc, rather than using Java beans. May use JAXB or completely different xml binding library. |
wsdl2scala | Medium | Not started | sbt plugin that, given a wsdl, generates the client interface with Scala dataobjects using the above bindings |
Server | Low | Not started | Given an implementation of an interface that returns responses as future or promise, implement a Play server that serves it |
Note that Scala support is a lower priority than Java support because a Java client with Java data objects can trivially be consumed by Scala, but not the other way around. Also it's possible (but not yet known) that Scala data binding may be very difficult.
To implement the proxy, we have to implement our own version of JaxWsClientProxy. This is the CXF JDK proxy interceptor that implements JAX WS interfaces. It's here that asynchronous requests are handled, and the logic here is hard coded - it implements the JAX WS requirements, if a method ends in Async
and returns something that implements Future
then dispatch an asynchronous call. Hence why we have to implement our own to make every method asynchronous regardless of name, and to allow scala Future and Java CompletionStage return types.
This class has a lot of logic copied from JaxWsClientProxy, the actual part that has been customised is quite simple, it just creates a promise, and sends an asynchronous callback that redeems the promise.
When the SOAP bindings are generated, JAXB bindings are generated from the return type. Since this type is a future, we need to tell CXF to use the type it contains.
JAX WS provides a Holder
type, this is used to allow methods return multiple values, something that is not possible otherwise in Java. It does this by having the first value returned as the return value of the method, and passing additional Holder
objects as arguments to the method, whose values are set when the method returns. Although this wasn't designed with returning futures in mind, the implementation of it in Apache CXF makes it quite simple to reuse this mechanism to extract the return type, hence this is what we're doing. This allows us to completely reuse all the reflection code from Apache CXF that generates the bindings from the interface.
In future, we may decide to implement our own reflection code for generating bindings, but for now using the Holder
mechanism is good enough. A small amount of hacking is necessary to use it, due to some odd behaviour by the CXF JAX WS support - when the bindings are created, the JAX WS support automatically inserts its own configuration, and implements it in such a way that any configuration that we've added for holders gets overridden. We work around this by overriding a method that eventually injects this configuration but is invoked before the binding is actually done, and after invoking the super for the method, we inject our own configuration to override the default behaviour.
- Improve API for creating the client proxy (make it simpler for the simple cases)
- Document how to create and configure the client proxy
- Tests, and general clean up of code.
- Ensure asynchronous http backend is used (currently JDK URLConnection is used)
This is implemented as an SBT plugin. Apache CXF's wsdl2java support is in fact very pluggable, there is a META-INF/tools-plugin.xml
descriptor that allows you to define custom generators ("frontend profiles"). So we've got a custom one of these, and it provides a custom Service Endpoint Interface (SEI) generator, which extends the default one, but provides a different velocity template. This velocity template is essentially identical to the default one, except that it wraps the return type in a future/promise.
For invoking wsdl2java, the interface provided by Apache CXF is one where arguments are passed as a sequence of Strings. So the sbt plugin has to build up these arguments.
- Scripted tests
- Support common arguments to wsdl2java as SBT settings/tasks
- Incremental compilation support
- Documentation
Not likely to ever be implemented.
The documentation is deployed to the gh-pages
branch and so is available at https://playframework.github.io/play-soap/Home.html.
To develop the documentation, start sbt, and run:
project docs
~webStage
Now modify the docs (either markdown, or the template, or the stylesheets), and open docs/target/web/stage/Home.html
to view them.
To deploy the docs, cd into the the docs/target/web/stage
directory, create a git repository, and then force push to the gh-pages
branch of the play-soap
repo.
The Play Soap library is Community Driven.