While designing rest API's I time to time have challenge to deal with batch operations (e.g. delete or update many entities at once) to reduce overhead of many tcp client connections. And in particular situation problem usually solves by adding custom api method for specific operation (e.g. POST /files/batchDelete which accepts ids at request body) which doesn't look pretty from point of view of rest api design principles but do the job.
But for me general solution for the problem still desirable. Recently I found Google Cloud Storage JSON API batching documentation which for me looks like pretty general solution. I mean similar format may be used for any http api, not just google cloud storage. So my question is - does anybody know kind of general standard (standard or it's draft, guideline, community effort or so) of making multiple API calls combined into one HTTP request?
I'm aware of capabilities of http/2 which include usage of single tcp connection for http requests but my question is addressed to application level. Which in my opinion still make sense because despite of ability to use http/2 taking that on application level seems like the only way to guarantee that for any client including http/1 which is currently the most used version of http.
TL;DR
To start with, REST nor HTTP are ideal for batch operations. As Jim Webber pointed out the application domain of HTTP is the transfer of documents over the Web. This is what HTTP does and this is what it is good at. However, any business rules we conclude are just a side effect of the document management and we have to come up with solutions to turn this document management side effects to something useful.
As REST is just a generalization of the concepts used in the browsable Web, it is no miracle that the same concepts that apply to Web development also apply to REST development in some form. Thereby a question like how something should be done in REST usually resolves around answering how something should be done on the Web.
As mentioned before, HTTP isn't ideal in terms of batch processing actions. Sure, a GET request may retrieve multiple results, though in reality you obtain one response containing links to further resources. The creation of resources has, according to the HTTP specification, to be indicated with a Location header that points to the newly created resource. POST is defined as an all purpose method that allows to perform tasks according to server-specific semantics. So you could basically use it to create multiple resources at once. However, the HTTP spec clearly lacks support for indicating the creation of multiple resources at once as the Location header may only appear once per response as well as define only one URI in it. So how can a server indicate the creation of multiple resources to the server?
A further indication that HTTP isn't ideal for batch processing is that a URI must reference a single resource. That resource may change over time, though the URI can't ever point to multiple resources at once. The URI itself is, more or less, used as key by caches which store a cacheable response representation for that URI. As a URI may only ever reference one single resource, a cache will also only ever store the representation of one resource for that URI. A cache will invalidate a stored representation for a URI if an unsafe operation is performed on that URI. In case of a DELETE operation, which is by nature unsafe, the representation for the URI the DELETE is performed on will be removed. If you now "redirect" the DELETE operation to remove multiple backing resources at once, how should a cache take notice of that? It only operates on the URI invoked. Hence even when you delete multiple resources in one go via DELETE a cache might still serve clients with outdated information as it simply didn't take notice of the removal yet and its freshness value would still indicate a fresh-enough state. Unless you disable caching by default, which somehow violates one of REST's constraints, or reduce the time period a representation is considered fresh enough to a very low value, clients will probably get served with outdated information. You could of course perform an unsafe operation on each of these URIs then to "clear" the cache, though in that case you could have invoked the DELETE operation on each resource you wanted to batch delete itself to start with.
It gets a bit easier though if the batch of data you want to remove is not explicitly captured via their own resources but as data of a single resource. Think of a data-table on a Web page where you have certain form-elements, such as a checkbox you can click on to mark an entry as delete candidate and then after invoking the submit button send the respective selected elements to the server which performs the removal of these items. Here only the state of one resource is updated and thus a simple POST, PUT or even PATCH operation can be performed on that resource URI. This also goes well with caching as outlined before as only one resource has to be altered, which through the usage of unsafe operations on that URI will automatically lead to an invalidation of any stored representation for the given URI.
The above mentioned usage of form-elements to mark certain elements for removal depends however on the media-type issued. In the case of HTML its forms section specifies the available components and their affordances. An affordance is the knowledge what you can and should do with certain objects. I.e. a button or link may want to be pushed, a text field may expect numeric or alphanumeric input which further may be length limited and so on. Other media types, such as hal-forms, halform or ion, attempt to provide form representations and components for a JSON based notation, however, support for such media-types is still quite limited.
As one of your concerns are the number of client connections to your service, I assume you have a write-intensive scenario as in read-intensive cases caching would probably take away a good chunk of load from your server. I.e. BBC once reported that they could reduce the load on their servers drastically just by introducing a one minute caching interval for recently requested resources. This mainly affected their start page and the linked articles as people clicked on the latest news more often than on old news. On receiving a couple of thousands, if not hundred thousands, request per minute they could, as mentioned before, reduce the number of requests actually reaching the server significantly and therefore take away a huge load on their servers.
Write intensive use-cases however can't take benefit of caching as much as read-intensive cases as the cache would get invalidated quite often and the actual request being forward to the server for processing. If the API is more or less used to perform CRUD operations, as so many "REST" APIs do in reality, it is questionable if it wouldn't be preferable to expose the database directly to the clients. Almost all modern database vendors ship with sophisticated user-right management options and allow to create views that can be exposed to certain users. The "REST API" on top of it basically just adds a further level of indirection and complexity in such a case. By exposing the DB directly, performing batch updates or deletions shouldn't be an issue at all as through the respective query languages support for such operations should already be build into the DB layer.
In regards to the number of connections clients create: HTTP from 1.0 on allows the reusage of connections via the Connection: keep-alive header directive. In HTTP/1.1 persistent connections are used by default if not explicitly requested to close via the respective Connection: close header directive. HTTP/2 introduced full-duplex connections that allow many channels and therefore requests to reuse the same connections at the same time. This is more or less a fix for the connection limitation suggested in RFC 2626 which plenty of Web developers avoided by using CDN and similar stuff. Currently most implementations use a maximum limit of 100 channels and therefore simultaneous downloads via a single connections AFAIK.
Usually opening and closing a connection takes a bit of time and server resources and the more open connections a server has to deal with the more a system may suffer. Though open connections with hardly any traffic aren't a big issue for most servers. While the connection creation was usually considered to be the costly part, through the usage of persistent connections that factor moved now towards the number of requests issued, hence the request for sending out batch-requests, which HTTP is not really made for. Again, as mentioned throughout the post, through the smart utilization of caching plenty of requests may never reach the server at all, if possible. This is probably one of the best optimization strategies to reduce the number of simultaneous requests, as probably plenty of requests might never reach the server at all. Probably the best advice to give is in such a case to have a look at what kind of resources are requested frequently, which requests take up a lot of processing capacity and which ones can easily get responded with by utilizing caching options.