I've read HTTP documentation, but I can't understand what is idempotency. Can someone help?
What is idempotency in HTTP methods?
Idempotency is a property of HTTP methods.
A request method is considered idempotent if the intended effect on the server of multiple identical requests with that method is the same as the effect for a single such request. And it's worthwhile to mention that idempotency is about the effect produced on the state of the resource on the server and not about the response status code received by the client.
To illustrate this, consider the
DELETE method, which is defined as idempotent. Now consider a client performs a
DELETE request to delete a resource from the server. The server processes the request, the resource gets deleted and the server returns
204. Then the client repeats the same
DELETE request and, as the resource has already been deleted, the server returns
Despite the different status code received by the client, the effect produced by a single
DELETE request is the same effect of multiple
DELETE requests to the same URI.
Finally, requests with idempotent methods can be repeated automatically if a communication failure occurs before the client is able to read the server's response. The client knows that repeating the request will have the same intended effect, even if the original request succeeded, though the response might be different.
Let's have a look at the RFC 7231, the document defines the semantics and the content of the HTTP/1.1 protocol. See the quotes below (highlights are mine).
HTTP methods can be safe:
Request methods are considered "safe" if their defined semantics are essentially read-only; i.e., the client does not request, and does not expect, any state change on the origin server as a result of applying a safe method to a target resource. [...]
This definition of safe methods does not prevent an implementation from including behavior that is potentially harmful, that is not entirely read-only, or that causes side effects while invoking a safe method. What is important, however, is that the client did not request that additional behavior and cannot be held accountable for it. [...]
Of the request methods defined by this specification, the
TRACEmethods are defined to be safe. [...]
A request method is considered "idempotent" if the intended effect on the server of multiple identical requests with that method is the same as the effect for a single such request. Of the request methods defined by this specification,
DELETE, and safe request methods are idempotent. [...]
Like the definition of safe, the idempotent property only applies to what has been requested by the user; a server is free to log each request separately, retain a revision control history, or implement other non-idempotent side effects for each idempotent request. [...]
Summarizing, the HTTP methods are classified as following:
+---------+------+------------+ | Method | Safe | Idempotent | +---------+------+------------+ | CONNECT | no | no | | DELETE | no | yes | | GET | yes | yes | | HEAD | yes | yes | | OPTIONS | yes | yes | | POST | no | no | | PUT | no | yes | | TRACE | yes | yes | +---------+------+------------+
PATCHrequest can be issued in such a way as to be idempotent, which also helps prevent bad outcomes from collisions between two
PATCHrequests on the same resource in a similar time frame. Collisions from multiple
PATCHrequests may be more dangerous than
PUTcollisions because some patch formats need to operate from a known base-point or else they will corrupt the resource. Clients using this kind of patch application SHOULD use a conditional request such that the request will fail if the resource has been updated since the client last accessed the resource. For example, the client can use a strong
If-Matchheader on the
In my understanding, idempotency has nothing to do with the result (=Server Response), but with the server-state after one or multiple calls.
Let's say you want to delete a resource on the server by calling
The call may return with a HTTP-Response
200 OK and the deleted resource as payload in the first place. In a second call, the Response will be
204 NO_CONTENT as the resource has already been deleted by the first call.
After each request the server-state is the same, therefore idempotency is fulfilled. The HTTP/1.1 says nothing about the response
A request method is considered "idempotent" if the intended effect on the server of multiple identical requests with that method is the same as the effect for a single such request
Idempotenc : GET, PUT : WHY ?
GET If fired recursively exact
/resource/123it will give same result
PUT If fired recursively exact
/user/123it will give same result
NON Idempotence :DELETE ,POST : WHY ?
DELETE If fired recursively exact
/user/123it will give different result second time(404 or NOT_FOUND)
POST If fired recursively exact
/user/(id is assigned by server)it will give different result every-time
Confusions : DELETE is Idempotenc by http docs , but its behaviour is Non-idempotence
Request is Idempotenc
if request gives same result
for exact same url fired recursly
else non Idempotenc
An idempotent HTTP method is an HTTP method that can be called many times without different outcomes. It would not matter if the method is called only once, or ten times over. The result should be the same. It essentially means that the result of a successfully performed request is independent of the number of times it is executed. For example, in arithmetic, adding zero to a number is idempotent operation.
POST is NOT idempotent. GET, PUT, DELETE, HEAD, OPTIONS and TRACE are idempotent.
1>POST -->Every time you call this Method It will give Different Result Why-->Consider a Scenario where you are creating new resources Each time you call this method it will resulting in creating new resources Giving you the different result each time and hence ,POST(in simple word "Insert") is non idempotent method.
2>Other will Give you the Same result
Idenpotent methods (GET,OPTIONS) don't change anything at the server (other than possibly adding log entries). Non-idempotent (PUT,POST,DELETE) methods change the data which is used to populate content in the web pages or effect change elsewhere (such as moving a crane, transferring funds, sending an email).