package opium
Install
Dune Dependency
Authors
Maintainers
Sources
sha256=b276cd222d959f5337ff8487d09ba6adf3b4d0746bed690d0d8ac71faae4789f
md5=c5b1d4e885f6b7d9a0c44d59f59242fc
Description
Opium is a minimalistic library for quickly binding functions to http routes. Its features include (but not limited to):
Middleware system for app independent components
A simple router for matching urls and parsing parameters
Request/Response pretty printing for easier debugging
Published: 04 Jan 2019
README
Opium
Executive Summary
Sinatra like web toolkit for OCaml based on cohttp & lwt
Design Goals
Opium should be very small and easily learnable. A programmer should be instantly productive when starting out.
Opium should be extensible using independently developed plugins. This is a Rack inspired mechanism borrowed from Ruby. The middleware mechanism in Opium is called
Rock
.It should maximize use of creature comforts people are used to in other languages. Such as sexplib, fieldslib, cow, a decent standard library.
Installation
NOTE: At this point there's a good chance this library will only work against cohttp master. Once cohttp 1.0 is released then this library will always be developed against OPAM version.
Stable
The latest stable version is available on opam
opam install opium
Master
If you'd like to live on the bleeding edge (which is sometimes more stable than stable)
opam pin add opium --dev-repo
Examples
All examples are built once the necessary dependencies are installed (cow
). make
will compile all examples. The binaries are located in _build/examples/
Hello World
Here's a simple hello world example to get your feet wet:
cat hello_world.ml
open Opium.Std
type person = {
name: string;
age: int;
}
let json_of_person { name ; age } =
let open Ezjsonm in
dict [ "name", (string name)
; "age", (int age) ]
let print_param = put "/hello/:name" begin fun req ->
`String ("Hello " ^ param req "name") |> respond'
end
let print_person = get "/person/:name/:age" begin fun req ->
let person = {
name = param req "name";
age = "age" |> param req |> int_of_string;
} in
`Json (person |> json_of_person) |> respond'
end
let _ =
App.empty
|> print_param
|> print_person
|> App.run_command
compile with:
ocamlbuild -pkg opium hello_world.native
and then call
./hello_world.native &
curl http://localhost:3000/person/john_doe/42
You should see a JSON message.
Middleware
The two fundamental building blocks of opium are:
Handlers:
Rock.Request.t -> Rock.Response.t Deferred.t
Middleware:
Rock.Handler.t -> Rock.Handler.t
Almost every all of opium's functionality is assembled through various middleware. For example: debugging, routing, serving static files, etc. Creating middleware is usually the most natural way to extend an opium app.
Here's how you'd create a simple middleware turning away everyone's favourite browser.
open Opium.Std
open Opium_misc
(* don't open cohttp and opium since they both define
request/response modules*)
let is_substring ~substring s =
Option.is_some (String.substr_index s ~pattern:substring)
let reject_ua ~f =
let filter handler req =
match Cohttp.Header.get (Request.headers req) "user-agent" with
| Some ua when f ua ->
`String ("Please upgrade your browser") |> respond'
| _ -> handler req in
Rock.Middleware.create ~filter ~name:"reject_ua"
let _ = App.empty
|> get "/" (fun req -> `String ("Hello World") |> respond')
|> middleware (reject_ua ~f:(is_substring ~substring:"MSIE"))
|> App.cmd_name "Reject UA"
|> App.run_command
Compile with:
ocamlbuild -pkg opium middleware_ua.native
Here we also use the ability of Opium to generate a cmdliner term to run your app. Run your executable with the -h
to see the options that are available to you. For example:
# run in debug mode on port 9000
./middleware_ua.native -p 9000 -d
Dependencies (13)
- stringext
- magic-mime
-
re
>= "1.3.0"
-
ppx_sexp_conv
>= "v0.9.0"
-
ppx_fields_conv
>= "v0.9.0"
- cmdliner
- logs
- lwt
- base-unix
-
cohttp-lwt-unix
>= "0.99.0"
-
opium_kernel
< "0.18.0"
- dune
-
ocaml
>= "4.04.1"
Used by
None
Conflicts
None