What is the REST protocol and what does it differ from HTTP protocol ?
REST is an approach that leverages the HTTP protocol, and is not an alternative to it.
Data is uniquely referenced by URL and can be acted upon using HTTP operations (GET, PUT, POST, DELETE, etc). A wide variety of mime types are supported for the message/response but XML and JSON are the most common.
For example to read data about a customer you could use an HTTP get operation with the URL http://www.example.com/customers/1. If you want to delete that customer, simply use the HTTP delete operation with the same URL.
The Java code below demonstrates how to make a REST call over the HTTP protocol:
For a Java (JAX-RS) example see:
REST is a design style for protocols, it was developed by Roy Fielding in his PhD dissertation and formalised the approach behind HTTP/1.0, finding what worked well with it, and then using this more structured understanding of it to influence the design of HTTP/1.1. So, while it was after-the-fact in a lot of ways, REST is the design style behind HTTP.
Fielding's dissertation can be found at http://www.ics.uci.edu/~fielding/pubs/dissertation/top.htm and is very much worth reading, and also worth readable. PhD dissertations can be pretty hard-going, but this one is wonderfully well-described and very readable to those of us without a comparable level of Computer Science. It helps that REST itself is pretty simple; it's one of those things that are obvious after someone else has come up with it. (It also for that matter encapsulates a lot of things that older web developers learnt themselves the hard way in one simple style, which made reading it a major "a ha!" moment for many).
Other application-level protocols as well as HTTP can also use REST, but HTTP is the classic example.
Because HTTP uses REST, all uses of HTTP are using a REST system. The description of a web application or service as RESTful or non-RESTful relates to whether it takes advantage of REST or works against it.
The classic example of a RESTful system is a "plain" website without cookies (cookies aren't always counter to REST, but they can be): Client state is changed by the user clicking a link which loads another page, or doing GET form queries which brings results. POST form queries can change both server and client state (the server does something on the basis of the POST, and then sends a hypertext document that describes the new state). URIs describe resources, but the entity (document) describing it may differ according to content-type or language preferred by the user. Finally, it's always been possible for browsers to update the page itself through PUT and DELETE though this has never been very common and if anything is less so now.
The classic example of a non-RESTful system using HTTP is something which treats HTTP as if it was a transport protocol, and with every request sends a POST of data to the same URI which is then acted upon in an RPC-like manner, possibly with the connection itself having shared state.
A RESTful computer-readable (i.e. not a website in a browser, but something used programmatically) system would obtain information about the resources concerned by GETting URI which would then return a document (e.g. in XML, but not necessarily) which would describe the state of the resource, including URIs to related resources (hypermedia therefore), change their state through PUTting entities describing the new state or DELETEing them, and have other actions performed by POSTing.
Key advantages are:
Scalability: The lack of shared state makes for a much more scalable system (demonstrated to me massively when I removed all use of session state from a heavily hit website, while I was expecting it to give a bit of extra performance, even a long-time anti-session advocate like myself was blown-away by the massive gain from removing what had been pretty slim use of sessions, it wasn't even why I had been removing them!)
Simplicity: There are a few different ways in which REST is simpler than more RPC-like models, in particular there are only a few "verbs" that are ever possible, and each type of resource can be reasoned about in reasonable isolation to the others.
Lightweight Entities: More RPC-like models tend to end up with a lot of data in the entities sent both ways just to reflect the RPC-like model. This isn't needed. Indeed, sometimes a simple plain-text document is all that is really needed in a given case, in which case with REST, that's all we would need to send (though this would be an "end-result" case only, since plain-text doesn't link to related resources). Another classic example is a request to obtain an image file, RPC-like models generally have to wrap it in another format, and perhaps encode it in some way to let it sit within the parent format (e.g. if the RPC-like model uses XML, the image will need to be base-64'd or similar to fit into valid XML). A RESTful model would just transmit the file the same as it does to a browser.
Human Readable Results: Not necessarily so, but it is often easy to build a RESTful webservice where the results are relatively easy to read, which aids debugging and development no end. I've even built one where an XSLT meant that the entire thing could be used by humans as a (relatively crude) website, though it wasn't primarily for human-use (essentially, the XSLT served as a client to present it to users, it wasn't even in the spec, just done to make my own development easier!).
Looser binding between server and client: Leads to easier later development or moves in how the system is hosted. Indeed, if you keep to the hypertext model, you can change the entire structure, including moving from single-host to multiple hosts for different services, without changing client code at all.
Caching: For the GET operations where the client obtains information about the state of a resource, standard HTTP caching mechanisms allow both for statements that the resource won't meaningfully change until a certain date at the earliest (no need to query at all until then) or that it hasn't changed since the last query (send a couple hundred bytes of headers saying this rather than several kilobytes of data). The improvement in performance can be immense (big enough to move the performance of something from the point where it is impractical to use to the point where performance is no longer a concern, in some cases).
Resiliance: In particular, the lack of shared state means that a client can die and come back into use without the server knowing, and even the server can die and come back into use without the client knowing. Obviously communications during that period will fail, but once the server is back online things can just continue as they were. This also really simplifies the use of web-farms for redundancy and performance - each server acts like it's the only server there is, and it doesn't matter that its actually only dealing with a fraction of the requests from a given client.
Also, a rather tongue-in-cheek description: http://tomayko.com/writings/rest-to-my-wife
REST is not a protocol, it is a generalized architecture for describing a stateless, caching client-server distributed-media platform. A REST architecture can be implemented using a number of different communication protocols, though HTTP is by far the most common.
REST is not a protocol, it is a way of exposing your application, mostly done over HTTP.
for example, you want to expose an api of your application that does getClientById
since you are using a GET method it means that you want to GET data
You take advantage over the HTTP methods: GET/DELETE/PUT