A certain government-backed wholesaler of broadband services in Australia took feedback from discussion groups about how best to deliver B2B services to retail ISPs. They settled on EbXML.
We're a very small shop (comparatively) that doesn't want to spend a lot of time going forward on integration. We're already familiar with integration of paired (inbound and outbound) SOAP services. In the past we've made use of WSDL-based code generation tooling (mostly with RPC/Literal services) where the WSDL has been descriptive and simple enough for the code generation tools to digest.
If at all possible we'd like to avoid having to hand-integrate the services with our business 'stack'. We know that the 'Interface Schemas' have been updated several times; we'd like to (as much as possible) do code and schema generation such that we can model our relationship with the supplier and the outbound/inbound messages as simple "queues" (tables) in an SQL database -- this will be our point of integration.
Starting with the outbound ("sender") SOAP web-service... it publishes a Document/Literal WSDL description of the service that seems to work correctly with various tools (e.g: wsdl2java, SoapUI) to generate the EBXML 'wrapper' messages. This says nothing about the 'payload' messages themselves which (at least for the MSH we've looked at) need to be
multipart/related attachments with type of
The 'payload' messages are defined in the provided CPA (something like bindings) and Schema (standard-looking XSD) files. The MSH itself doesn't seem to provide any external validation for the payload messages.
Is the same kind of code generation (as seen with WSDL-described SOAP web services) tooling available for EbXML CPAs/Schemas? (i.e: tools that can consume the CPA and 'payload' interface schemas and spit out java/c++/whatever, and/or something WSDL-like specific to the 'payload' interface messages and/or example messages).
If so, where do I look?
If not, are there any EbXML-specific problems that would prevent it? (I'd rather not get several weeks into a project to develop tools that are impossible to implement 'correctly' given the information at hand).