I'm developing a new RESTful webservice for our application.
When doing a GET on certain entities, clients can request the contents of the entity.
If they want to add some parameters (for example sorting a list) they can add these parameters in the query string.
Alternatively I want people to be able to specify these parameters in the request body.
HTTP/1.1 does not seem to explicitly forbid this. This will allow them to specify more information, might make it easier to specify complex XML requests.
My questions:
Is this a good idea altogether?
Will HTTP clients have issues with using request bodies within a GET request?
https://www.rfc-editor.org/rfc/rfc2616
Roy Fielding's comment about including a body with a GET request.
Yes. In other words, any HTTP request message is allowed to contain a message body, and thus must parse messages with that in mind. Server semantics for GET, however, are restricted such that a body, if any, has no semantic meaning to the request. The requirements on parsing are separate from the requirements on method semantics.
So, yes, you can send a body with GET, and no, it is never useful to do so.
This is part of the layered design of HTTP/1.1 that will become clear again once the spec is partitioned (work in progress).
....Roy
Yes, you can send a request body with GET but it should not have any meaning. If you give it meaning by parsing it on the server and changing your response based on its contents, then you are ignoring this recommendation in the HTTP/1.1 spec, section 4.3:
...if the request method does not include defined semantics for an entity-body, then the message-body SHOULD be ignored when handling the request.
And the description of the GET method in the HTTP/1.1 spec, section 9.3:
The GET method means retrieve whatever information ([...]) is identified by the Request-URI.
which states that the request-body is not part of the identification of the resource in a GET request, only the request URI.
Update
The RFC2616 referenced as "HTTP/1.1 spec" is now obsolete. In 2014 it was replaced by RFCs 7230-7237. Quote "the message-body SHOULD be ignored when handling the request" has been deleted. It's now just "Request message framing is independent of method semantics, even if the method doesn't define any use for a message body" The 2nd quote "The GET method means retrieve whatever information ... is identified by the Request-URI" was deleted. - From a comment
From the HTTP 1.1 2014 Spec:
A payload within a GET request message has no defined semantics; sending a payload body on a GET request might cause some existing implementations to reject the request.
While you can do that, insofar as it isn't explicitly precluded by the HTTP specification, I would suggest avoiding it simply because people don't expect things to work that way. There are many phases in an HTTP request chain and while they "mostly" conform to the HTTP spec, the only thing you're assured is that they will behave as traditionally used by web browsers. (I'm thinking of things like transparent proxies, accelerators, A/V toolkits, etc.)
This is the spirit behind the Robustness Principle roughly "be liberal in what you accept, and conservative in what you send", you don't want to push the boundaries of a specification without good reason.
However, if you have a good reason, go for it.
You will likely encounter problems if you ever try to take advantage of caching. Proxies are not going to look in the GET body to see if the parameters have an impact on the response.
Elasticsearch accepts GET requests with a body. It even seems that this is the preferred way: Elasticsearch guide
Some client libraries (like the Ruby driver) can log the cry command to stdout in development mode and it is using this syntax extensively.
Neither restclient nor REST console support this but curl does.
The HTTP specification says in section 4.3
A message-body MUST NOT be included in a request if the specification of the request method (section 5.1.1) does not allow sending an entity-body in requests.
Section 5.1.1 redirects us to section 9.x for the various methods. None of them explicitly prohibit the inclusion of a message body. However...
Section 5.2 says
The exact resource identified by an Internet request is determined by examining both the Request-URI and the Host header field.
and Section 9.3 says
The GET method means retrieve whatever information (in the form of an entity) is identified by the Request-URI.
Which together suggest that when processing a GET request, a server is not required to examine anything other that the Request-URI and Host header field.
In summary, the HTTP spec doesn't prevent you from sending a message-body with GET but there is sufficient ambiguity that it wouldn't surprise me if it was not supported by all servers.
GET, with a body!?
Specification-wise you could, but, it's not a good idea to do so injudiciously, as we shall see.
RFC 7231 §4.3.1 states that a body "has no defined semantics", but that's not to say it is forbidden. If you attach a body to the request and what your server/app makes out of it is up to you. The RFC goes on to state that GET can be "a programmatic view on various database records". Obviously such view is many times tailored by a large number of input parameters, which are not always convenient or even safe to put in the query component of the request-target.
The good: I like the verbiage. It's clear that one read/get a resource without any observable side-effects on the server (the method is "safe"), and, the request can be repeated with the same intended effect regardless of the outcome of the first request (the method is "idempotent").
The bad: An early draft of HTTP/1.1 forbade GET to have a body, and - allegedly - some implementations will even up until today drop the body, ignore the body or reject the message. For example, a dumb HTTP cache may construct a cache key out of the request-target only, being oblivious to the presence or content of a body. An even dumber server could be so ignorant that it treats the body as a new request, which effectively is called "request smuggling" (which is the act of sending "a request to one device without the other device being aware of it" - source).
Due to what I believe is primarily a concern with inoperability amongst implementations, work in progress suggests to categorize a GET body as a "SHOULD NOT", "unless [the request] is made directly to an origin server that has previously indicated, in or out of band, that such a request has a purpose and will be adequately supported" (emphasis mine).
The fix: There's a few hacks that can be employed for some of the problems with this approach. For example, body-unaware caches can indirectly become body-aware simply by appending a hash derived from the body to the query component, or disable caching altogether by responding a cache-control: no-cache header from the server.
Alas when it comes to the request chain, one is often not in control of- or even aware, of all present and future HTTP intermediaries and how they will deal with a GET body. That's why this approach must be considered generally unreliable.
But POST, is not idempotent!
POST is an alternative. The POST request usually includes a message body (just for the record, body is not a requirement, see RFC 7230 §3.3.2). The very first use case example from RFC 7231 (§4.3.3) is "providing a block of data [...] to a data-handling process". So just like GET with a body, what happens with the body on the back-end side is up to you.
The good: Perhaps a more common method to apply when one wish to send a request body, for whatever purpose, and so, will likely yield the least amount of noise from your team members (some may still falsely believe that POST must create a resource).
Also, what we often pass parameters to is a search function operating upon constantly evolving data, and a POST response is only cacheable if explicit freshness information is provided in the response.
The bad: POST requests are not defined as idempotent, leading to request retry hesitancy. For example, on page reload, browsers are unwilling to resubmit an HTML form without prompting the user with a nonreadable cryptic message.
The fix: Well, just because POST is not defined to be idempotent doesn't mean it mustn't be. Indeed, RFC 7230 §6.3.1 writes: "a user agent that knows (through design or configuration) that a POST request to a given resource is safe can repeat that request automatically". So, unless your client is an HTML form, this is probably not a real problem.
QUERY is the holy grail
There's a proposal for a new method QUERY which does define semantics for a message body and defines the method as idempotent. See this.
Edit: As a side-note, I stumbled into this StackOverflow question after having discovered a codebase where they solely used PUT requests for server-side search functions. This were their idea to include a body with parameters and also be idempotent. Alas the problem with PUT is that the request body has very precise semantics. Specifically, the PUT "requests that the state of the target resource be created or replaced with the state [in the body]" (RFC 7231 §4.3.4). Clearly, this excludes PUT as a viable option.
You can either send a GET with a body or send a POST and give up RESTish religiosity (it's not so bad, 5 years ago there was only one member of that faith -- his comments linked above).
Neither are great decisions, but sending a GET body may prevent problems for some clients -- and some servers.
Doing a POST might have obstacles with some RESTish frameworks.
Julian Reschke suggested above using a non-standard HTTP header like "SEARCH" which could be an elegant solution, except that it's even less likely to be supported.
It might be most productive to list clients that can and cannot do each of the above.
Clients that cannot send a GET with body (that I know of):
XmlHTTPRequest Fiddler
Clients that can send a GET with body:
most browsers
Servers & libraries that can retrieve a body from GET:
Apache
PHP
Servers (and proxies) that strip a body from GET:
?
What you're trying to achieve has been done for a long time with a much more common method, and one that doesn't rely on using a payload with GET.
You can simply build your specific search mediatype, or if you want to be more RESTful, use something like OpenSearch, and POST the request to the URI the server instructed, say /search. The server can then generate the search result or build the final URI and redirect using a 303.
This has the advantage of following the traditional PRG method, helps cache intermediaries cache the results, etc.
That said, URIs are encoded anyway for anything that is not ASCII, and so are application/x-www-form-urlencoded and multipart/form-data. I'd recommend using this rather than creating yet another custom json format if your intention is to support ReSTful scenarios.
I put this question to the IETF HTTP WG. The comment from Roy Fielding (author of http/1.1 document in 1998) was that
"... an implementation would be broken to do anything other than to parse and discard that body if received"
RFC 7213 (HTTPbis) states:
"A payload within a GET request message has no defined semantics;"
It seems clear now that the intention was that semantic meaning on GET request bodies is prohibited, which means that the request body can't be used to affect the result.
There are proxies out there that will definitely break your request in various ways if you include a body on GET.
So in summary, don't do it.
From RFC 2616, section 4.3, "Message Body":
A server SHOULD read and forward a message-body on any request; if the
request method does not include defined semantics for an entity-body,
then the message-body SHOULD be ignored when handling the request.
That is, servers should always read any provided request body from the network (check Content-Length or read a chunked body, etc). Also, proxies should forward any such request body they receive. Then, if the RFC defines semantics for the body for the given method, the server can actually use the request body in generating a response. However, if the RFC does not define semantics for the body, then the server should ignore it.
This is in line with the quote from Fielding above.
Section 9.3, "GET", describes the semantics of the GET method, and doesn't mention request bodies. Therefore, a server should ignore any request body it receives on a GET request.
Which server will ignore it? – fijiaaron Aug 30 '12 at 21:27
Google for instance is doing worse than ignoring it, it will consider it an error!
Try it yourself with a simple netcat:
$ netcat www.google.com 80
GET / HTTP/1.1
Host: www.google.com
Content-length: 6
1234
(the 1234 content is followed by CR-LF, so that is a total of 6 bytes)
and you will get:
HTTP/1.1 400 Bad Request
Server: GFE/2.0
(....)
Error 400 (Bad Request)
400. That’s an error.
Your client has issued a malformed or illegal request. That’s all we know.
You do also get 400 Bad Request from Bing, Apple, etc... which are served by AkamaiGhost.
So I wouldn't advise using GET requests with a body entity.
According to XMLHttpRequest, it's not valid. From the standard:
4.5.6 The send() method
client . send([body = null])
Initiates the request. The optional argument provides the request
body. The argument is ignored if request method is GET or HEAD.
Throws an InvalidStateError exception if either state is not
opened or the send() flag is set.
The send(body) method must run these steps:
If state is not opened, throw an InvalidStateError exception.
If the send() flag is set, throw an InvalidStateError exception.
If the request method is GET or HEAD, set body to null.
If body is null, go to the next step.
Although, I don't think it should because GET request might need big body content.
So, if you rely on XMLHttpRequest of a browser, it's likely it won't work.
If you really want to send cachable JSON/XML body to web application the only reasonable place to put your data is query string encoded with RFC4648: Base 64 Encoding with URL and Filename Safe Alphabet. Of course you could just urlencode JSON and put is in URL param's value, but Base64 gives smaller result. Keep in mind that there are URL size restrictions, see What is the maximum length of a URL in different browsers? .
You may think that Base64's padding = character may be bad for URL's param value, however it seems not - see this discussion: http://mail.python.org/pipermail/python-bugs-list/2007-February/037195.html . However you shouldn't put encoded data without param name because encoded string with padding will be interpreted as param key with empty value.
I would use something like ?_b64=<encodeddata>.
I wouldn't advise this, it goes against standard practices, and doesn't offer that much in return. You want to keep the body for content, not options.
You have a list of options which are far better than using a request body with GET.
Let' assume you have categories and items for each category. Both to be identified by an id ("catid" / "itemid" for the sake of this example). You want to sort according to another parameter "sortby" in a specific "order". You want to pass parameters for "sortby" and "order":
You can:
Use query strings, e.g.
example.com/category/{catid}/item/{itemid}?sortby=itemname&order=asc
Use mod_rewrite (or similar) for paths:
example.com/category/{catid}/item/{itemid}/{sortby}/{order}
Use individual HTTP headers you pass with the request
Use a different method, e.g. POST, to retrieve a resource.
All have their downsides, but are far better than using a GET with a body.
What about nonconforming base64 encoded headers? "SOMETHINGAPP-PARAMS:sdfSD45fdg45/aS"
Length restrictions hm. Can't you make your POST handling distinguish between the meanings? If you want simple parameters like sorting, I don't see why this would be a problem. I guess it's certainty you're worried about.
I'm upset that REST as protocol doesn't support OOP and Get method is proof. As a solution, you can serialize your a DTO to JSON and then create a query string. On server side you'll able to deserialize the query string to the DTO.
Take a look on:
Message-based design in ServiceStack
Building RESTful Message Based Web Services with WCF
Message based approach can help you to solve Get method restriction. You'll able to send any DTO as with request body
Nelibur web service framework provides functionality which you can use
var client = new JsonServiceClient(Settings.Default.ServiceAddress);
var request = new GetClientRequest
{
Id = new Guid("2217239b0e-b35b-4d32-95c7-5db43e2bd573")
};
var response = client.Get<GetClientRequest, ClientResponse>(request);
as you can see, the GetClientRequest was encoded to the following query string
http://localhost/clients/GetWithResponse?type=GetClientRequest&data=%7B%22Id%22:%2217239b0e-b35b-4d32-95c7-5db43e2bd573%22%7D
IMHO you could just send the JSON encoded (ie. encodeURIComponent) in the URL, this way you do not violate the HTTP specs and get your JSON to the server.
For example, it works with Curl, Apache and PHP.
PHP file:
<?php
echo $_SERVER['REQUEST_METHOD'] . PHP_EOL;
echo file_get_contents('php://input') . PHP_EOL;
Console command:
$ curl -X GET -H "Content-Type: application/json" -d '{"the": "body"}' 'http://localhost/test/get.php'
Output:
GET
{"the": "body"}
Even if a popular tool use this, as cited frequently on this page, I think it is still quite a bad idea, being too exotic, despite not forbidden by the spec.
Many intermediate infrastructures may just reject such requests.
By example, forget about using some of the available CDN in front of your web site, like this one:
If a viewer GET request includes a body, CloudFront returns an HTTP status code 403 (Forbidden) to the viewer.
And yes, your client libraries may also not support emitting such requests, as reported in this comment.
If you want to allow a GET request with a body, a way is to support POST request with header "X-HTTP-Method-Override: GET". It is described here : https://en.wikipedia.org/wiki/List_of_HTTP_header_fields. This header means that while the method is POST, the request should be treated as if it is a GET. Body is allowed for POST, so you're sure nobody willl drop the payload of your GET requests.
This header is oftenly used to make PATCH or HEAD requests through some proxies that do not recognize those methods and replace them by GET (always fun to debug!).
An idea on an old question:
Add the full content on the body, and a short hash of the body on the querystring, so caching won't be a problem (the hash will change if body content is changed) and you'll be able to send tons of data when needed :)
Create a Requestfactory class
import java.net.URI;
import javax.annotation.PostConstruct;
import org.apache.http.client.methods.HttpEntityEnclosingRequestBase;
import org.apache.http.client.methods.HttpUriRequest;
import org.springframework.http.HttpMethod;
import org.springframework.http.client.HttpComponentsClientHttpRequestFactory;
import org.springframework.stereotype.Component;
import org.springframework.web.client.RestTemplate;
#Component
public class RequestFactory {
private RestTemplate restTemplate = new RestTemplate();
#PostConstruct
public void init() {
this.restTemplate.setRequestFactory(new HttpComponentsClientHttpRequestWithBodyFactory());
}
private static final class HttpComponentsClientHttpRequestWithBodyFactory extends HttpComponentsClientHttpRequestFactory {
#Override
protected HttpUriRequest createHttpUriRequest(HttpMethod httpMethod, URI uri) {
if (httpMethod == HttpMethod.GET) {
return new HttpGetRequestWithEntity(uri);
}
return super.createHttpUriRequest(httpMethod, uri);
}
}
private static final class HttpGetRequestWithEntity extends HttpEntityEnclosingRequestBase {
public HttpGetRequestWithEntity(final URI uri) {
super.setURI(uri);
}
#Override
public String getMethod() {
return HttpMethod.GET.name();
}
}
public RestTemplate getRestTemplate() {
return restTemplate;
}
}
and #Autowired where ever you require and use, Here is one sample code GET request with RequestBody
#RestController
#RequestMapping("/v1/API")
public class APIServiceController {
#Autowired
private RequestFactory requestFactory;
#RequestMapping(method = RequestMethod.GET, path = "/getData")
public ResponseEntity<APIResponse> getLicenses(#RequestBody APIRequest2 APIRequest){
APIResponse response = new APIResponse();
HttpHeaders headers = new HttpHeaders();
headers.setContentType(MediaType.APPLICATION_JSON);
Gson gson = new Gson();
try {
StringBuilder createPartUrl = new StringBuilder(PART_URL).append(PART_URL2);
HttpEntity<String> entity = new HttpEntity<String>(gson.toJson(APIRequest),headers);
ResponseEntity<APIResponse> storeViewResponse = requestFactory.getRestTemplate().exchange(createPartUrl.toString(), HttpMethod.GET, entity, APIResponse.class); //.getForObject(createLicenseUrl.toString(), APIResponse.class, entity);
if(storeViewResponse.hasBody()) {
response = storeViewResponse.getBody();
}
return new ResponseEntity<APIResponse>(response, HttpStatus.OK);
}catch (Exception e) {
e.printStackTrace();
return new ResponseEntity<APIResponse>(response, HttpStatus.INTERNAL_SERVER_ERROR);
}
}
}
Related
I am creating a REST API for the Order screen. I have methods:
GET /api/orders
GET /api/orders/{orderId}
I have some buttons on the Order page and I created few endpoints for that:
PATCH /api/order/buttons/mark-as-read
PATCH /api/order/buttons/change-status
Now I need to add the delete button. But I don't understand how to do that. I have 2 options:
DELETE /api/orders/{orderId} - but I should send 2 additional parameters in this request
PATCH /api/order/buttons/delete - I can send my DTO in the body, but it is not a REST approach.
I want to understand which type of request is used for the delete button in the REST context?
PATCH /api/order/buttons/mark-as-read
PATCH /api/order/buttons/change-status
These are a bit strange. PATCH is a method with remote authoring semantics; it implies that you are making a change to the resource identified by the effective target URI.
But that doesn't seem to be the case here; if you are expecting to apply the changes to the document identified by /api/orders/{orderId}, then that should be the target URI, not some other resource.
PATCH /api/orders/1
Content-Type: text/plain
Please mark this order as read.
PATCH /api/orders/1
Content-Type: text/plain
Please change the status of this order to FULFILLED
Of course, we don't normally use "text/plain" and statements that require a human being to interpret, but instead use a patch document format (example: application/json-patch+json) that a machine can be taught to interpret.
I want to understand which type of request is used for the delete button in the REST context?
If the semantics of "delete" belong to the Orders domain (for instance, if it is a button that signals a desire to cancel an order) then you should be using PUT or PATCH (if you are communicating by passing updated representations of the resource) or POST (if you are sending instructions that the server will interpret).
The heuristic to consider: how would you do this on a plain HTML page? Presumably you would have a "cancel my order" form, with input controls to collect information from the user, and possibly some hidden fields. When the user submits the form, the browser would use the form data and HTML's form processing rules to create an application/x-www-form-urlencoded representation of the information, and would then POST that information to the resource identified by the form action.
The form action could be anything; you could use /api/orders/1/cancel, analogous to your mark-as-read and change-status design; but if you can use the identifier of the order (which is to say, the resource that you are changing), then you get the advantages of standardized cache invalidation for free.
It's normal for a single message handler, which has a single responsibility in the transfer of documents over a network domain, ex POST /api/orders/{orderId}, to interpret the payload and select one of multiple handlers (change-status, mark-as-read, cancel) in your domain.
you offer to use something like this: PATCH /api/orders/{orderId} and OrderUpdatesDto as JSON string in the request body?
Sort of.
There are three dials here: which effective request URI to use, which payload to use, which method to use.
Because I would want to take advantage of cache invalidation, I'm going to look for designs that use: /api/order/{orderId} as the effective request URI, because that's the URI for the responses that I want to invalidate.
It's fine to use something like a JSON representation of an OrderUpdate message/command/DTO as the payload of the request. But that's not really a good match for remote authoring. So instead of PATCH, I would use POST
POST /api/orders/1 HTTP/1.1
Content-Type: application/prs.pavel-orderupdate+json
{...}
But you can instead decide to support a remote authoring interface, meaning that the client just edits their local copy of /api/order/1 and then tells you what changes they made.
That's the case where both PUT (send back the entire document) and PATCH (send back a bunch of edits) can make sense. If GET /api/orders/1 returns a JSON document, then I'm going to look into whether or not I can support one of the general purpose JSON patch document formats; JSON Patch or JSON Merge Patch or something along those lines.
Of course, it can be really hard to get from "changes to a document" to a message that will be meaningful to a non-anemic domain. There are reasons that we might prefer supporting a task based experience, but sending a task centric DTO is not a good fit for PUT/PATCH if you also want caching to work the way I've described above.
I think this is a classic and typical question but I didn't find its answer.
In my knowledge, the POST method is used to send data to the server with request parameter in message body to make it secure. And GET method is to retrieve data with parameters in the URL.
But what I didn't understand is how the same api may have different behavior by just changing the method.
Here is an example. I use SoapUI 5.5.0, this is the link of the api: https://reqres.in/api/users/1
when I use GET method I get this:
{
"data": {
"id": 1,
"email": "george.bluth#reqres.in",
"first_name": "George",
"last_name": "Bluth",
"avatar": "https://s3.amazonaws.com/uifaces/faces/twitter/calebogden/128.jpg"
}
}
and by changing only the method to POST, I get this:
{
"id": "244",
"createdAt": "2020-02-27T14:30:32.100Z"
}
(the id and date changes each time)
as described in this link https://reqres.in/ that it is creating an instance and we can add parameters..
BUT, can any one explain how is it technically possible to have different behavior with different methods on the same URL.
In my knowledge, the POST method is used to send data to the server with request parameter in message body to make it secure. And GET method is to retrieve data with parameters in the URL.
That's probably getting in your way.
HTTP Requests are messages; each message starts with a request-line
method SP request-target SP HTTP-version CRLF
The request-target identifies the target resource upon which to apply the request
The method token indicates the request method to be performed on the target resource.
You can think of it being like a function call
GET(target-resource)
POST(target-resource, message-body)
Or equivalently you can think of the resources as objects that share an understanding of message semantics
target-resource.GET()
target-resource.POST(message-body)
But what I didn't understand is how the same api may have different behavior by just changing the method.
The same way that an api can exhibit different behavior by just changing the request-target.
In HTTP, the request-line is literally human readable text that the server will parse. Having parsed the request-line, the server program can then branch to whatever code it wants to use to do the work, based on the values it found in the message.
In many frameworks (Spring, Rails) the branching logic is provided by the framework code; your bespoke handlers only need to be correctly registered and the framework ensures that each request is forwarded to the correct handler.
how is it technically possible to have different behavior with
different methods on the same URL
for the technical possibility, you can look at the spring framework's answer to this.
You can have a controller that is accessible on a single url but can contacted in four says, GET, PUT, POST, DELETE. To do this, Spring provides the annotations #GetMapping, #PostMapping, #PutMapping, #DeleteMapping.
All the requests are sent to the same url and Spring works out which method to call based on the verb.
In Restful APIs, verbs have very important meaning.
GET: Retrieve data
POST: Create a new entity with the request's body
PUT: Replace an entity with the request's body
PATCH: Update some properties of an entity with the request's body. A.K.A. Partial update
In your case, changing the verb from get to post has the effect of creating a new entity with ID 1. That's why you get a response with the newly created ID and a createdAt timestamp.
I'm writing an Endpoint who will extract data. My issue is, the client request need to pass a list of (very complex) object to my enpoint, along other complexe datas.
The whole thing look to complexe to pass by parameters.
Should I still use a GET? can I do it with a requestBody? Or can I do a POST with a response body ?
My endpoint still need to respect REST
the data I need to pass:
{id :"anUuid",
comment : "some very long text sometime more than 1000 char",
dataComputedByOtherServer:[{id:"anUuid",stuff:{"a lot of other stuff"}}]
}
the response body:
{
//allong with the usual REST response http code and other error message
payload:{
moreComplexData:[{id:"anUuid",stuff:{"a lot of other stuff"}}]
}
}
There's no body payload with an HTTP GET - you'll need to use POST (or PUT) to send this as needed.
A payload within a GET request message has no defined semantics -- https://www.rfc-editor.org/rfc/rfc7231#section-4.3.1
So GET is out of bounds.
In the long term, the method want may eventually be SEARCH; see https://github.com/httpwg/http-extensions/issues/943
While POST with the header defined in #942 would help, POST is still an unsafe method that poorly reflects the safe, idempotent semantics of search-like operations. I therefore argue that a a SEARCH method is needed to have a safe, idempotent method with explicit caching support, in opposition to POST which explicitly is not cacheable.
But we aren't there as of 2019: the semantics of SEARCH are still defined by the WebDAV specification, where they don't quite mean what you want.
I want to pass some data within request body, but I'm using GET request, because I just want to modify this data and send it back.
I know that it is bad practice to use body with GET requests.
But what should I do with this situation if I want to build correct RESTful service?
P.S. I'm not changin any object on server.
I'm not putting any new object on server.
You want a POST. Something like
POST /hashes
{
"myInput": ...
}
The response would be the hashed value. There's no rule that the created resource must be retained by the server.
From the RFC:
The action performed by the POST method might not result in a
resource that can be identified by a URI. In this case, either 200
(OK) or 204 (No Content) is the appropriate response status,
depending on whether or not the response includes an entity that
describes the result.
I want the user to have the opportunity to choose the format in which it receives a response from the server, whether it is plain text, json or xml. It's looks like I must to retrieve media_type by calling cowboy_req:meta/{2,3} and then use it for encoding a response body. But that value doesn't available in callbacks before content_types_provided (malformed_request, is_authorized, forbidden...).
Should I dublicate a cowboy logic and write my own code to determine media_type?
Or ignore all callbacks which had executed before the media_type has been determined.
Or maybe should I to place my response message into request metadata and encode it in the onresponse hook, then replace response body?
How should I do that?
I think you are not quite wright. Straight from init/3 and rest_init/3 functions the Request parameter is "full request", and you can read any header or meta in each callback.
And personally i would go with Header over Meta (since there is already Content-Type header defined, and Headers should take presence over Meta).
In general the REST callbacks in cowboy should only give you easily understandable workflow for handling request, with additional default response codes. In is_authorized/2 all you need to do is check authorization, simply return true or false (as part of tuple), and cowboy will either move forward with you logic or return 401 code. Checking is someone allowed to make request should not be determined on response format, but still, if you would like to do it, just read this Meta from Req parameter, and return true/false based on it.
And the only difference with content_types_provided/2 is that you return kind of bindings between Content-Types header values and your functions. I think all you need could be based on this official example