Source file input_channel.ml
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open! Core
open! Async
module Bytebuffer = struct
module Bytebuffer = Http_bytebuffer.Bytebuffer
include Bytebuffer
include
Bytebuffer.Make
(Deferred)
(struct
type src = Reader.t
let refill reader buf ~pos ~len = Reader.read reader ~pos ~len buf
end)
end
type t = { buf : Bytebuffer.t; reader : Reader.t }
let create ?(buf_len = 0x4000) reader =
{ buf = Bytebuffer.create buf_len; reader }
let read_line_opt t = Bytebuffer.read_line t.buf t.reader
let read t count = Bytebuffer.read t.buf t.reader count
let refill t = Bytebuffer.refill t.buf t.reader
let with_input_buffer t ~f =
let buf = Bytebuffer.unsafe_buf t.buf in
let pos = Bytebuffer.pos t.buf in
let len = Bytebuffer.length t.buf in
let res, consumed =
f (Bytes.unsafe_to_string ~no_mutation_while_string_reachable:buf) ~pos ~len
in
Bytebuffer.drop t.buf consumed;
res
let is_closed t = Reader.is_closed t.reader
let close t = Reader.close t.reader
let close_finished t = Reader.close_finished t.reader
let transfer t writer =
let finished = Ivar.create () in
upon (Pipe.closed writer) (fun () -> Ivar.fill_if_empty finished ());
let rec loop () =
refill t >>> function
| `Eof -> Ivar.fill_if_empty finished ()
| `Ok ->
let payload =
with_input_buffer t ~f:(fun buf ~pos ~len ->
(String.sub buf ~pos ~len, len))
in
Pipe.write writer payload >>> fun () -> loop ()
in
loop ();
Ivar.read finished
let to_reader info ic =
let reader, writer = Pipe.create () in
( transfer ic writer >>> fun () ->
close ic >>> fun () -> Pipe.close writer );
Reader.of_pipe info reader