package h1-lwt-unix

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Lwt support for ocaml-h1

Install

Dune Dependency

Authors

Maintainers

Sources

h1-1.0.0.tbz
sha256=b851d170d99f1e216674c00c2a24b92a2948c0cca57ff0282427f1965ac8bd13
sha512=dde55fc1e6c6615c6b2a8baca1273528b305dd9f15e6bcb4a283b5f0e7909c7be549dd1ce802eceab2404eeb81def9f9350fe31b8a76ae65a004008dd6865e71

README.md.html

http/af

http/af is a high-performance, memory-efficient, and scalable web server for OCaml. It implements the HTTP 1.1 specification with respect to parsing, serialization, and connection pipelining as a state machine that is agnostic to the underlying IO mechanism, and is therefore portable across many platform. It uses the Angstrom and Faraday libraries to implement the parsing and serialization layers of the HTTP standard, hence the name.

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Installation

Install the library and its dependencies via OPAM:

opam install h1

Usage

Here is a Hello, World! program written using h1. It only responds to GET requests to the /hello/* target. As it does not itself do any IO, it can be used with both the Async and Lwt runtimes. See the examples directory for usage of the individual runtimes.

open H1
module String = Stdlib.String

let invalid_request reqd status body =
  (* Responses without an explicit length or transfer-encoding are
     close-delimited. *)
  let headers = Headers.of_list [ "Connection", "close" ] in
  Reqd.respond_with_string reqd (Response.create ~headers status) body
;;

let request_handler reqd =
  let { Request.meth; target; _ } = Reqd.request reqd in
  match meth with
  | `GET ->
    begin match String.split_on_char '/' target with
    | "" :: "hello" :: rest ->
      let who =
        match rest with
        | [] -> "world"
        | who :: _ -> who
      in
      let response_body = Printf.sprintf "Hello, %s!\n" who in
      (* Specify the length of the response. *)
      let headers =
        Headers.of_list
          [ "Content-length", string_of_int (String.length response_body) ]
      in
      Reqd.respond_with_string reqd (Response.create ~headers `OK) response_body
    | _ ->
      let response_body = Printf.sprintf "%S not found\n" target in
      invalid_request reqd `Not_found response_body
    end
  | meth ->
    let response_body =
      Printf.sprintf "%s is not an allowed method\n" (Method.to_string meth)
    in
    invalid_request reqd `Method_not_allowed response_body
;;

Performance

The reason for http/af's existence is mirage/ocaml-cohttp#328, which highlights the poor scalability of cohttp. This is due to a number of factors, including poor scheduling, excessive allocation, and starvation of the server's accept loop. Here is a comparison chart of the data from that issue, along with data from an async-based http/af server. This server was run on a VM with 3 virtual cores, the host being circa 2015 MacBook Pro:

The http/af latency histogram, relative to the cohttp histograms, is pretty much flat along the x-axis. Here are some additional statistics from that run (with latencies in milliseconds):

#[Mean    =       27.719, StdDeviation   =       31.570]
#[Max     =      263.424, Total count    =      1312140]
#[Buckets =           27, SubBuckets     =         2048]
----------------------------------------------------------
  1709909 requests in 1.00m, 3.33GB read

Development

To install development dependencies, pin the package from the root of the repository:

opam pin add -n h1 .
opam install --deps-only h1

After this, you may install a development version of the library using the install command as usual.

Tests can be run via dune:

dune runtest

License

BSD3, see LICENSE files for its text.

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