I'm providing RESTful API to my (JS) client from (Java Spring) server.
Main site page contains a number of logical blocks (news, last comments, some trending stuff), each of them has a corresponding entity on server. Which way is a right one to go, handle one request like
/api/main_page/ ->
{
news: {...}
comments: {...}
...
}
or let the client do a few requests like
/api/news/
/api/comments/
...
I know in general it's better to have one large request/response, but is this an answer to this situation as well?
Ideally, you should have different API calls for fetching individual configurable content blocks of the page from the same API.
This way your content blocks are loosely bounded to each other.
You
can extend, port(to a new framework) and modify them independently at
anytime you want.
This comes extremely useful when application grows.
Switching off a feature is fairly easy in this
case.
A/B testing is also easy in this case.
Writing automation is
also very easy.
Overall it helps in reducing the testing efforts.
But if you really want to fetch this in one call. Then you should add additional params in request and when the server sees that additional param it adds the additional independent JSON in the response by calling it's own method from BL layer.
And, if speed is your concern then try caching these calls on server for some time(depends on the type of application).
I think in general multiple requests can be justified, when the requested resources reflect parts of the system state. (my personal rule of thumb, still WIP).
i.e. if a news gets displayed in your client application a lot, I would request it once and reuse it wherever I can. If you aggregate here, you would need to request for it later, maybe some of them never get actually displayed, and you have some magic to do if the representation of a news differs in the aggregation and /news/{id}-resource.
This approach would increase communication if the page gets loaded for the first time, but decrease communication throughout your client application the longer it runs.
The state on the server gets copied request by request to your client or updated when needed (Etags, last-modified, etc.).
In your example it looks like /news and /comments are some sort of latest or since last visit, but not all.
If this is true, I would design them to be a resurce as well, like /comments/latest or similar.
But in any case I would them only have self-links to the /news/{id} or /comments/{id} respectively. Then you would have a request to /comments/latest, what results in a list of news-self-links, for what I would start a request only if I don't already have that news (maybe I want to check if the cached copy is still up to date).
It is also possible to trigger the request to a /news/{id} only if it gets actually displayed (scrolling, swiping).
Probably the lifespan of a news or a comment is a criterion to answer this question. Meaning the caching in the client it is not that vital to the system, in opposite of a book in an Book store app.
I'm developing small CQRS+ES framework and develop applications with it. In my system, I should log some action of the client and use it for analytics, statistics and maybe in the future do something in domain with it. For example, client (on web) download some resource(s) and I need save date, time, type (download, partial,...), from region or country (maybe IP), etc. after that in some view client can see count of download or some complex report. I'm not sure how to implement this feather.
First solution creates analytic context and some aggregate, in each client action send some command like IncreaseDownloadCounter(resourced) them handle the command and raise domain event's and updating view, but in this scenario first download occurred and after that, I send command so this is not really command and on other side version conflict increase.
The second solution is raising event, from client side and update the view model base on it, but in this type of handling my event not store in event store because it's not raise by command and never change any domain context. If is store it in event store, no aggregate to handle it after fetch for some other use.
Third solution is raising event, from client side and I store it on other database may be for each type of event have special table, but in this manner of event handle I have multiple event storage with different schema and difficult on recreating view models and trace events for recreating contexts states so in future if I add some domain for use this type of event's it's difficult to use events.
What is the best approach and solution for this scenario?
First solution creates analytic context and some aggregate
Unquestionably the wrong answer; the event has already happened, so it is too late for the domain model to complain.
What you have is a stream of events. Putting them in the same event store that you use for your aggregate event streams is fine. Putting them in a separate store is also fine. So you are going to need some other constraint to make a good choice.
Typically, reads vastly outnumber writes, so one concern might be that these events are going to saturate the domain store. That might push you towards storing these events separately from your data model (prior art: we typically keep the business data in our persistent book of record, but the sequence of http requests received by the server is typically written instead to a log...)
If you are supporting an operational view, push on the requirement that the state be recovered after a restart. You might be able to get by with building your view off of an in memory model of the event counts, and use something more practical for the representations of the events.
Thanks for your complete answer, so I should create something like the ES schema without some field (aggregate name or type, version, etc.) and collect client event in that repository, some offline process read and update read model or create command to do something on domain space.
Something like that, yes. If the view for the client doesn't actually require any validation by your model at all, then building the read model from the externally provided events is fine.
Are you recommending save some claim or authorization token of the user and sender app for validation in another process?
Maybe, maybe not. The token describes the authority of the event; our own event handler is the authority for the command(s) that is/are derived from the events. It's an interesting question that probably requires more context -- I'd suggest you open a new question on that point.
I'm designing a REST api, and I need an endpoint that executes an algorithm using the data sent by the client.
My first approach was to use a GET endpoint, because the algorithm is idempotent:
Given an input with value "A" it always returns "B" and it never modifies anything in the server.
It would be great to model this using a GET endpoint, so we can use browser cache, bookmark and so on.
However I can't use a GET endpoint because the algorithm needs a very large JSON as input parameter and I don't want to send this parameter as URL parameter.
Seeing as I can't use GET, I've designed this endpoint using POST.
Now I have a doubt about HTTP status codes.
If the algorithm returns an empty result, I was going to send 404 status code that makes a lot of sense using a GET request.
But now, using a POST method, it seems a little bit strange to me:
POST /myAlgorithm
Response: 404 Not Found
It sounds like the user has written a wrong URL but the problem is the input parameter, that produces an empty response.
So my questions are:
Should I return an input list to deal with this case?
Does anybody knows how to design this kind of methods using a GET endpoint?
If you have an empty result and that's a legal value you should return 204, meaning that you have no error executing, but there was simply nothing to say.
Also, if the call is idempotent, POST is not the ideal way to go.
Both GET and PUT are assumed to be idempotent, but not POST (one of the many references here).
I want to expand an answer and clarify a bit your question with some concepts.
Your question starts with "RESTFul. Using post to execute algorithms" which is a bit innacurate so we can review some concepts quickly.
REST is mainly and only related to VERBs to make it simply. Every webpage is REST
RESTful means you implement all the VERBs, webpages are not RESTful except for rare cases.
Most of the time RESTful goes hand-by-hand with Resource Oriented which is an architecture, RESTful is not an architecture, it's a set of design principles.
RESTful services work pretty well with ROA (resource-oriented architecture) because it's the natural way to do it. The main principle of ROA is the scope goes in the URI so a client can quickly understand looking at the request what's going on.
GET /users http/1.1
At a glance I clearly understand a client want the users list.
Also we have as a different architecture the classic RPC services. SOAP is one of them. A RPC service normally POST an action using an envelope (any kind) and receives a result into an envelope with a 200 ok answer and no more than that. This is of course a simplification of many other principles but it works to understand the concept.
A really good rule of thumb says if you heavily require POST you're not doing REST neither RESTful, or you're designing a RPC service or you have something clearly considered as REST-RPC.
In a RPC service the scoping and methods go into the envelope. Going back to your words:
... an endpoint that executes an algorithm using the data sent by the
client.
That's an obvious definition of RPC or at least REST-RPC
In this case you're not acting over a resource. There's not resource involved, you're executing an algorithm (process, hence, it's RPC). So, the idempotency here doesn't apply at all, there's no resource, there's not a necessity of using GET.
Again, considering you need to POST your data because it's big, and this data cannot be considered scope (for example, a scope in Google is the set of parameters you pass to the engine), it cannot use any classic REST technique, basically because you're doing RPC calls.
My answer is you don't need to think in your service in terms of GET or RESTful, consider it a REST-RPC hybrid as it was designed. It means you POST an envelope (your data) and get 200 ok with an envelope as an answer (in your case, the result of the operation.
That would be the correct way to manage it.
From what I can gather, there are three categories:
Never use GET and use POST
Never use POST and use GET
It doesn't matter which one you use.
Am I correct in assuming those three cases? If so, what are some examples from each case?
Use POST for destructive actions such as creation (I'm aware of the irony), editing, and deletion, because you can't hit a POST action in the address bar of your browser. Use GET when it's safe to allow a person to call an action. So a URL like:
http://myblog.org/admin/posts/delete/357
Should bring you to a confirmation page, rather than simply deleting the item. It's far easier to avoid accidents this way.
POST is also more secure than GET, because you aren't sticking information into a URL. And so using GET as the method for an HTML form that collects a password or other sensitive information is not the best idea.
One final note: POST can transmit a larger amount of information than GET. 'POST' has no size restrictions for transmitted data, whilst 'GET' is limited to 2048 characters.
In brief
Use GET for safe andidempotent requests
Use POST for neither safe nor idempotent requests
In details
There is a proper place for each. Even if you don't follow RESTful principles, a lot can be gained from learning about REST and how a resource oriented approach works.
A RESTful application will use GETs for operations which are both safe and idempotent.
A safe operation is an operation which does not change the data requested.
An idempotent operation is one in which the result will be the same no matter how many times you request it.
It stands to reason that, as GETs are used for safe operations they are automatically also idempotent. Typically a GET is used for retrieving a resource (a question and its associated answers on stack overflow for example) or collection of resources.
A RESTful app will use PUTs for operations which are not safe but idempotent.
I know the question was about GET and POST, but I'll return to POST in a second.
Typically a PUT is used for editing a resource (editing a question or an answer on stack overflow for example).
A POST would be used for any operation which is neither safe or idempotent.
Typically a POST would be used to create a new resource for example creating a NEW SO question (though in some designs a PUT would be used for this also).
If you run the POST twice you would end up creating TWO new questions.
There's also a DELETE operation, but I'm guessing I can leave that there :)
Discussion
In practical terms modern web browsers typically only support GET and POST reliably (you can perform all of these operations via javascript calls, but in terms of entering data in forms and pressing submit you've generally got the two options). In a RESTful application the POST will often be overriden to provide the PUT and DELETE calls also.
But, even if you are not following RESTful principles, it can be useful to think in terms of using GET for retrieving / viewing information and POST for creating / editing information.
You should never use GET for an operation which alters data. If a search engine crawls a link to your evil op, or the client bookmarks it could spell big trouble.
Use GET if you don't mind the request being repeated (That is it doesn't change state).
Use POST if the operation does change the system's state.
Short Version
GET: Usually used for submitted search requests, or any request where you want the user to be able to pull up the exact page again.
Advantages of GET:
URLs can be bookmarked safely.
Pages can be reloaded safely.
Disadvantages of GET:
Variables are passed through url as name-value pairs. (Security risk)
Limited number of variables that can be passed. (Based upon browser. For example, Internet Explorer is limited to 2,048 characters.)
POST: Used for higher security requests where data may be used to alter a database, or a page that you don't want someone to bookmark.
Advantages of POST:
Name-value pairs are not displayed in url. (Security += 1)
Unlimited number of name-value pairs can be passed via POST. Reference.
Disadvantages of POST:
Page that used POST data cannot be bookmark. (If you so desired.)
Longer Version
Directly from the Hypertext Transfer Protocol -- HTTP/1.1:
9.3 GET
The GET method means retrieve whatever information (in the form of an entity) is identified by the Request-URI. If the Request-URI refers to a data-producing process, it is the produced data which shall be returned as the entity in the response and not the source text of the process, unless that text happens to be the output of the process.
The semantics of the GET method change to a "conditional GET" if the request message includes an If-Modified-Since, If-Unmodified-Since, If-Match, If-None-Match, or If-Range header field. A conditional GET method requests that the entity be transferred only under the circumstances described by the conditional header field(s). The conditional GET method is intended to reduce unnecessary network usage by allowing cached entities to be refreshed without requiring multiple requests or transferring data already held by the client.
The semantics of the GET method change to a "partial GET" if the request message includes a Range header field. A partial GET requests that only part of the entity be transferred, as described in section 14.35. The partial GET method is intended to reduce unnecessary network usage by allowing partially-retrieved entities to be completed without transferring data already held by the client.
The response to a GET request is cacheable if and only if it meets the requirements for HTTP caching described in section 13.
See section 15.1.3 for security considerations when used for forms.
9.5 POST
The POST method is used to request that the origin server accept the
entity enclosed in the request as a new subordinate of the resource
identified by the Request-URI in the Request-Line. POST is designed
to allow a uniform method to cover the following functions:
Annotation of existing resources;
Posting a message to a bulletin board, newsgroup, mailing list,
or similar group of articles;
Providing a block of data, such as the result of submitting a
form, to a data-handling process;
Extending a database through an append operation.
The actual function performed by the POST method is determined by the
server and is usually dependent on the Request-URI. The posted entity
is subordinate to that URI in the same way that a file is subordinate
to a directory containing it, a news article is subordinate to a
newsgroup to which it is posted, or a record is subordinate to a
database.
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.
The first important thing is the meaning of GET versus POST :
GET should be used to... get... some information from the server,
while POST should be used to send some information to the server.
After that, a couple of things that can be noted :
Using GET, your users can use the "back" button in their browser, and they can bookmark pages
There is a limit in the size of the parameters you can pass as GET (2KB for some versions of Internet Explorer, if I'm not mistaken) ; the limit is much more for POST, and generally depends on the server's configuration.
Anyway, I don't think we could "live" without GET : think of how many URLs you are using with parameters in the query string, every day -- without GET, all those wouldn't work ;-)
Apart from the length constraints difference in many web browsers, there is also a semantic difference. GETs are supposed to be "safe" in that they are read-only operations that don't change the server state. POSTs will typically change state and will give warnings on resubmission. Search engines' web crawlers may make GETs but should never make POSTs.
Use GET if you want to read data without changing state, and use POST if you want to update state on the server.
My general rule of thumb is to use Get when you are making requests to the server that aren't going to alter state. Posts are reserved for requests to the server that alter state.
One practical difference is that browsers and webservers have a limit on the number of characters that can exist in a URL. It's different from application to application, but it's certainly possible to hit it if you've got textareas in your forms.
Another gotcha with GETs - they get indexed by search engines and other automatic systems. Google once had a product that would pre-fetch links on the page you were viewing, so they'd be faster to load if you clicked those links. It caused major havoc on sites that had links like delete.php?id=1 - people lost their entire sites.
Use GET when you want the URL to reflect the state of the page. This is useful for viewing dynamically generated pages, such as those seen here. A POST should be used in a form to submit data, like when I click the "Post Your Answer" button. It also produces a cleaner URL since it doesn't generate a parameter string after the path.
Because GETs are purely URLs, they can be cached by the web browser and may be better used for things like consistently generated images. (Set an Expiry time)
One example from the gravatar page: http://www.gravatar.com/avatar/4c3be63a4c2f539b013787725dfce802?d=monsterid
GET may yeild marginally better performance, some webservers write POST contents to a temporary file before invoking the handler.
Another thing to consider is the size limit. GETs are capped by the size of the URL, 1024 bytes by the standard, though browsers may support more.
Transferring more data than that should use a POST to get better browser compatibility.
Even less than that limit is a problem, as another poster wrote, anything in the URL could end up in other parts of the brower's UI, like history.
1.3 Quick Checklist for Choosing HTTP GET or POST
Use GET if:
The interaction is more like a question (i.e., it is a safe operation such as a query, read operation, or lookup).
Use POST if:
The interaction is more like an order, or
The interaction changes the state of the resource in a way that the user would perceive (e.g., a subscription to a service), or
The user be held accountable for the results of the interaction.
Source.
There is nothing you can't do per-se. The point is that you're not supposed to modify the server state on an HTTP GET. HTTP proxies assume that since HTTP GET does not modify the state then whether a user invokes HTTP GET one time or 1000 times makes no difference. Using this information they assume it is safe to return a cached version of the first HTTP GET. If you break the HTTP specification you risk breaking HTTP client and proxies in the wild. Don't do it :)
This traverses into the concept of REST and how the web was kinda intended on being used. There is an excellent podcast on Software Engineering radio that gives an in depth talk about the use of Get and Post.
Get is used to pull data from the server, where an update action shouldn't be needed. The idea being is that you should be able to use the same GET request over and over and have the same information returned. The URL has the get information in the query string, because it was meant to be able to be easily sent to other systems and people like a address on where to find something.
Post is supposed to be used (at least by the REST architecture which the web is kinda based on) for pushing information to the server/telling the server to perform an action. Examples like: Update this data, Create this record.
i dont see a problem using get though, i use it for simple things where it makes sense to keep things on the query string.
Using it to update state - like a GET of delete.php?id=5 to delete a page - is very risky. People found that out when Google's web accelerator started prefetching URLs on pages - it hit all the 'delete' links and wiped out peoples' data. Same thing can happen with search engine spiders.
POST can move large data while GET cannot.
But generally it's not about a shortcomming of GET, rather a convention if you want your website/webapp to be behaving nicely.
Have a look at http://www.w3.org/2001/tag/doc/whenToUseGet.html
From RFC 2616:
9.3 GET
The GET method means retrieve whatever information (in the form of
an entity) is identified by the
Request-URI. If the Request-URI refers
to a data-producing process, it is the
produced data which shall be returned
as the entity in the response and not
the source text of the process, unless
that text happens to be the output of
the process.
9.5 POST The POST method is used to request that the origin server
accept the entity enclosed in the
request as a new subordinate of the
resource identified by the Request-URI
in the Request-Line. POST is designed
to allow a uniform method to cover the
following functions:
Annotation of existing resources;
Posting a message to a bulletin board, newsgroup, mailing list, or
similar group of articles;
Providing a block of data, such as the result of submitting a form, to a
data-handling process;
Extending a database through an append operation.
The actual function performed by the
POST method is determined by the
server and is usually dependent on the
Request-URI. The posted entity is
subordinate to that URI in the same
way that a file is subordinate to a
directory containing it, a news
article is subordinate to a newsgroup
to which it is posted, or a record is
subordinate to a database.
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 use POST when I don't want people to see the QueryString or when the QueryString gets large. Also, POST is needed for file uploads.
I don't see a problem using GET though, I use it for simple things where it makes sense to keep things on the QueryString.
Using GET will allow linking to a particular page possible too where POST would not work.
The original intent was that GET was used for getting data back and POST was to be anything. The rule of thumb that I use is that if I'm sending anything back to the server, I use POST. If I'm just calling an URL to get back data, I use GET.
Read the article about HTTP in the Wikipedia. It will explain what the protocol is and what it does:
GET
Requests a representation of the specified resource. Note that GET should not be used for operations that cause side-effects, such as using it for taking actions in web applications. One reason for this is that GET may be used arbitrarily by robots or crawlers, which should not need to consider the side effects that a request should cause.
and
POST
Submits data to be processed (e.g., from an HTML form) to the identified resource. The data is included in the body of the request. This may result in the creation of a new resource or the updates of existing resources or both.
The W3C has a document named URIs, Addressability, and the use of HTTP GET and POST that explains when to use what. Citing
1.3 Quick Checklist for Choosing HTTP GET or POST
Use GET if:
The interaction is more like a question (i.e., it is a
safe operation such as a query, read operation, or lookup).
and
Use POST if:
The interaction is more like an order, or
The interaction changes the state of the resource in a way that the user would perceive (e.g., a subscription to a service), or
o The user be held accountable for the results of the interaction.
However, before the final decision to use HTTP GET or POST, please also consider considerations for sensitive data and practical considerations.
A practial example would be whenever you submit an HTML form. You specify either post or get for the form action. PHP will populate $_GET and $_POST accordingly.
In PHP, POST data limit is usually set by your php.ini. GET is limited by server/browser settings I believe - usually around 255 bytes.
From w3schools.com:
What is HTTP?
The Hypertext Transfer Protocol (HTTP) is designed to enable
communications between clients and servers.
HTTP works as a request-response protocol between a client and server.
A web browser may be the client, and an application on a computer that
hosts a web site may be the server.
Example: A client (browser) submits an HTTP request to the server;
then the server returns a response to the client. The response
contains status information about the request and may also contain the
requested content.
Two HTTP Request Methods: GET and POST
Two commonly used methods for a request-response between a client and
server are: GET and POST.
GET – Requests data from a specified resource POST – Submits data to
be processed to a specified resource
Here we distinguish the major differences:
Well one major thing is anything you submit over GET is going to be exposed via the URL. Secondly as Ceejayoz says, there is a limit on characters for a URL.
Another difference is that POST generally requires two HTTP operations, whereas GET only requires one.
Edit: I should clarify--for common programming patterns. Generally responding to a POST with a straight up HTML web page is a questionable design for a variety of reasons, one of which is the annoying "you must resubmit this form, do you wish to do so?" on pressing the back button.
As answered by others, there's a limit on url size with get, and files can be submitted with post only.
I'd like to add that one can add things to a database with a get and perform actions with a post. When a script receives a post or a get, it can do whatever the author wants it to do. I believe the lack of understanding comes from the wording the book chose or how you read it.
A script author should use posts to change the database and use get only for retrieval of information.
Scripting languages provided many means with which to access the request. For example, PHP allows the use of $_REQUEST to retrieve either a post or a get. One should avoid this in favor of the more specific $_GET or $_POST.
In web programming, there's a lot more room for interpretation. There's what one should and what one can do, but which one is better is often up for debate. Luckily, in this case, there is no ambiguity. You should use posts to change data, and you should use get to retrieve information.
HTTP Post data doesn't have a specified limit on the amount of data, where as different browsers have different limits for GET's. The RFC 2068 states:
Servers should be cautious about
depending on URI lengths above 255
bytes, because some older client or
proxy implementations may not properly
support these lengths
Specifically you should the right HTTP constructs for what they're used for. HTTP GET's shouldn't have side-effects and can be safely refreshed and stored by HTTP Proxies, etc.
HTTP POST's are used when you want to submit data against a url resource.
A typical example for using HTTP GET is on a Search, i.e. Search?Query=my+query
A typical example for using a HTTP POST is submitting feedback to an online form.
Gorgapor, mod_rewrite still often utilizes GET. It just allows to translate a friendlier URL into a URL with a GET query string.
Simple version of POST GET PUT DELETE
use GET - when you want to get any resource like List of data based on any Id or Name
use POST - when you want to send any data to server. keep in mind POST is heavy weight operation because for updation we should use PUT instead of POST
internally POST will create new resource
use PUT - when you