Introduction to Web Services Protocols : Introduction to Web Services Protocols
Communication and standards : Communication and standards Efficient (or indeed any) communication is dependent on a shared vocabulary and grammar.
Because web services deals with inter-organisation communication these must be universal standards.
Underlying standards : Underlying standards The basic standards for web services are:
XML (Extensible Markup Language)
SOAP (simple object access protocol)
WSDL (web services description language)
UDDI (universal description, discovery and integration)
The state of standards : The state of standards XML 1.0 fairly stable, although Schema are in the process of replacing DTDs (currently Schema 1.1 being worked on).
SOAP 1.2
WSDL 2.0 (coming out, 1.2 current)
UDDI version 3 (Aug 2003)
BPEL 1.1 (Business Process Execution Language)
choreography description language (web services work flows)
started January 2003.
Standards are still volatile and in the process of development.
Web Services Architecture : Web Services Architecture Web Services involve three major roles
Service Provider
Service Registry
Service Consumer
Three major operations surround web services
Publishing – making a service available
Finding – locating web services
Binding – using web services
Making a service available (1) : Making a service available (1) In order for someone to use your service they have to know about it.
To allow users to discover a service it is published to a registry (UDDI).
To allow users to interact with a service you must publish a description of it’s interface (methods & arguments).
This is done using WSDL.
Making a service available (2) : Making a service available (2) Once you have published a description of your service you must have a host set up to serve it.
A web server is often used to deliver services (although custom application – application communication is also possible).
This is functionality which has to be added to the web server. In the case of the apache web server a ‘container’ application (Tomcat) can be used to make the application (servlet) available to apache (deploying).
The old transfer protocols are still there. : The old transfer protocols are still there. Like the grid architecture web services is layered on top of existing, mature transfer protocols.
HTTP, SMTP are still used over TCP/IP to pass the messages.
Web services, like grids, can be seen as a functionality enhancement to the existing technologies.
XML : XML All Web Services documents are written in XML
XML Schema are used to define the elements used in Web Services communication
SOAP : SOAP Actually used to communicate with the Web Service
Both the request and the response are SOAP messages
The body of the message (whose grammar is defined by the WSDL) is contained within a SOAP “envelope”
“Binds” the client to the web service
WSDL : WSDL Describes the Web Service and defines the functions that are exposed in the Web Service
Defines the XML grammar to be used in the messages
Uses the W3C Schema language
UDDI : UDDI UDDI is used to register and look up services with a central registry
Service Providers can publish information about their business and the services that they offer
Service consumers can look up services that are available by
Business
Service category
Specific service
Section : Section XML
What is XML : What is XML XML stands for extensible markup language
It is a hierarchical data description language
It is a sub set of SGML a general document markup language designed for the American millitary.
It is defined by w3c.
How does XML differ from HTML? : How does XML differ from HTML? HTML is a presentation markup language – provides no information about content.
There is only one standard definition of all of the tags used in HTML.
XML can define both presentation style and give information about content.
XML relies on custom documents defining the meaning of tags.
What is a Schema? : What is a Schema? A schema is the definition of the meaning of each of the tags within a XML document.
Analogy: A HTML style sheet can be seen as a limited schema which only specifies the presentational style of HTML which refers to it.
Example: in HTML the tag pre-defined. In XML you would need to define this in the context of your document.
A minimal XML document : A minimal XML document
Jim
Valid and well formed : Valid and well formed A correct XML document must be both valid and well formed.
Well formed means that the syntax must be correct and all tags must close correctly (eg <…> ).
Valid means that the document must conform to some XML definition ( a DTD or Schema).
(Otherwise there can be no definition of what the tags mean)
Using namespaces in XML : Using namespaces in XML To fully qualify a namespace in XML write the namespace:tag name. eg.
In a globally declared single namespace the qualifier may be omitted.
More than one namespace:
can co-exist if correctly qualified.
Namespaces in programming languages : Namespaces in programming languages In C/C++ defined by #includes and classes (eg. myclass::variable).
In PERL defined by package namespace, $local and $my (eg. myPackage::variable).
In JAVA defined by includes and package namespace (eg. java.lang.Object)
Defines the scope of variables
Schema : Schema
sam smith
sam smith
Simple schema saved as order.xsd XML document derived from
schema.
Section : Section SOAP
Request Response Web Services : Request Response Web Services Currently the most common implementation of Web Services
Work in a very simple ‘request – response’ paradigm
For Example:
A Weather Service– simple request for weather in an area, simple response with the weather report
An Airline special offers service – travel agents would simply make requests for latest offers and would receive the offers as a response
SOAP messages : SOAP messages SOAP provides a standard ‘envelope’ within which a message can be delivered.
SOAP is mechanism (protocol) for transferring information (messages) between applications which may be widely distributed.
SOAP says nothing about the content of the message – the sender and the receiver must understand the message for themselves.
SOAP is part of a communication stack.
SOAP Structure(1) : SOAP Structure(1) Each SOAP message will have:
An Envelope
A Header (optional)
A Body
The Body may contain a Fault element
SOAP Structure(2) : SOAP Structure(2) The envelope wraps the entire soap document
The header contains allows additional information to be passed as well as the body of the document – e.g. authentication
The body element contains the core of the SOAP document – this will contain either the RPC call or the XML message itself
The fault information will contain any exception information
Anatomy of a SOAP message : Anatomy of a SOAP message
SOAP protocol binding : SOAP protocol binding SOAPAction = “urn:soaphttpclient-action-uri”
Host = localhost
Content-Type = text/xml; charset=utf-8
Content-Length = 701
SOAP RPC : SOAP RPC SOAP RPC messages contain XML that represents a method call or method response
The SOAP XML will be converted into a method call on the server and the response will be encoded into SOAP XML to be returned to the client
SOAP Faults : SOAP Faults SOAP errors are handled using a specialised envelope known as a Fault Envelope
A SOAP Fault is a special element which must appear as an immediate child of the body element
and are required.
A SOAP fault : A SOAP fault
SOAP-ENV:Server
Test fault
/soap/servlet/rpcrouter
..
SOAP Attachment : SOAP Attachment Large quantities or binary data may not fit well into a XML SOAP message.
In which case it can be sent ‘out of band’ by attaching it to a SOAP message
Analogy : email attachments. SOAP BODY SOAP ENVELOPE FAULT SOAP HEADER Transport protocol MIME header Attachment
Attaching a file to a SOAP message : Attaching a file to a SOAP message To add a file to a SOAP message a tag is added within the body of the message.