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open Bigarray
type t = (char, int8_unsigned_elt, c_layout) Array1.t
let create size = Array1.create char c_layout size
let length bytes = Array1.dim bytes
external get : t -> int -> char = "%caml_ba_ref_1"
external set : t -> int -> char -> unit = "%caml_ba_set_1"
external unsafe_get : t -> int -> char = "%caml_ba_unsafe_ref_1"
external unsafe_set : t -> int -> char -> unit = "%caml_ba_unsafe_set_1"
[@@@ocaml.warning "-3"]
external unsafe_fill : t -> int -> int -> char -> unit = "lwt_unix_fill_bytes" "noalloc"
[@@@ocaml.warning "+3"]
let fill bytes ofs len ch =
if ofs < 0 || len < 0 || ofs > length bytes - len then
invalid_arg "Lwt_bytes.fill"
else
unsafe_fill bytes ofs len ch
[@@@ocaml.warning "-3"]
external unsafe_blit_from_bytes : Bytes.t -> int -> t -> int -> int -> unit = "lwt_unix_blit_from_bytes" "noalloc"
external unsafe_blit_from_string : string -> int -> t -> int -> int -> unit = "lwt_unix_blit_from_string" "noalloc"
external unsafe_blit_to_bytes : t -> int -> Bytes.t -> int -> int -> unit = "lwt_unix_blit_to_bytes" "noalloc"
external unsafe_blit : t -> int -> t -> int -> int -> unit = "lwt_unix_blit" "noalloc"
[@@@ocaml.warning "+3"]
let blit_from_string src_buf src_ofs dst_buf dst_ofs len =
if (len < 0
|| src_ofs < 0 || src_ofs > String.length src_buf - len
|| dst_ofs < 0 || dst_ofs > length dst_buf - len) then
invalid_arg "Lwt_bytes.blit_from_string"
else
unsafe_blit_from_string src_buf src_ofs dst_buf dst_ofs len
let blit_from_bytes src_buf src_ofs dst_buf dst_ofs len =
if (len < 0
|| src_ofs < 0 || src_ofs > Bytes.length src_buf - len
|| dst_ofs < 0 || dst_ofs > length dst_buf - len) then
invalid_arg "Lwt_bytes.blit_from_bytes"
else
unsafe_blit_from_bytes src_buf src_ofs dst_buf dst_ofs len
let blit_to_bytes src_buf src_ofs dst_buf dst_ofs len =
if (len < 0
|| src_ofs < 0 || src_ofs > length src_buf - len
|| dst_ofs < 0 || dst_ofs > Bytes.length dst_buf - len) then
invalid_arg "Lwt_bytes.blit_to_bytes"
else
unsafe_blit_to_bytes src_buf src_ofs dst_buf dst_ofs len
let blit src_buf src_ofs dst_buf dst_ofs len =
if (len < 0
|| src_ofs < 0 || src_ofs > length src_buf - len
|| dst_ofs < 0 || dst_ofs > length dst_buf - len) then
invalid_arg "Lwt_bytes.blit"
else
unsafe_blit src_buf src_ofs dst_buf dst_ofs len
let of_bytes buf =
let len = Bytes.length buf in
let bytes = create len in
unsafe_blit_from_bytes buf 0 bytes 0 len;
bytes
let of_string str = of_bytes (Bytes.unsafe_of_string str)
let to_bytes bytes =
let len = length bytes in
let str = Bytes.create len in
unsafe_blit_to_bytes bytes 0 str 0 len;
str
let to_string bytes = Bytes.unsafe_to_string (to_bytes bytes)
let proxy = Array1.sub
let buf ofs len =
if ofs < 0 || len < 0 || ofs > length buf - len then
invalid_arg "Lwt_bytes.extract"
else begin
let buf' = create len in
blit buf ofs buf' 0 len;
buf'
end
let copy buf =
let len = length buf in
let buf' = create len in
blit buf 0 buf' 0 len;
buf'
open Lwt_unix
let read =
Lwt_unix.read_bigarray "Lwt_bytes.read" [@ocaml.warning "-3"]
let write =
Lwt_unix.write_bigarray "Lwt_bytes.write" [@ocaml.warning "-3"]
external stub_recv : Unix.file_descr -> t -> int -> int -> Unix.msg_flag list -> int = "lwt_unix_bytes_recv"
let recv fd buf pos len flags =
if pos < 0 || len < 0 || pos > length buf - len then
invalid_arg "Lwt_bytes.recv"
else
wrap_syscall Read fd (fun () -> stub_recv (unix_file_descr fd) buf pos len flags)
external stub_send : Unix.file_descr -> t -> int -> int -> Unix.msg_flag list -> int = "lwt_unix_bytes_send"
let send fd buf pos len flags =
if pos < 0 || len < 0 || pos > length buf - len then
invalid_arg "Lwt_bytes.send"
else
wrap_syscall Write fd (fun () -> stub_send (unix_file_descr fd) buf pos len flags)
type io_vector = {
iov_buffer : t;
iov_offset : int;
iov_length : int;
}
let io_vector ~buffer ~offset ~length = ({
iov_buffer = buffer;
iov_offset = offset;
iov_length = length;
} : io_vector)
let convert_io_vectors old_io_vectors =
let io_vectors = IO_vectors.create () in
old_io_vectors
|> List.iter (fun ({iov_buffer; iov_offset; iov_length} : io_vector) ->
IO_vectors.append_bigarray io_vectors iov_buffer iov_offset iov_length);
io_vectors
let recv_msg ~socket ~io_vectors =
Lwt_unix.recv_msg ~socket ~io_vectors:(convert_io_vectors io_vectors)
let send_msg ~socket ~io_vectors ~fds =
Lwt_unix.send_msg ~socket ~io_vectors:(convert_io_vectors io_vectors) ~fds
external stub_recvfrom : Unix.file_descr -> t -> int -> int -> Unix.msg_flag list -> int * Unix.sockaddr = "lwt_unix_bytes_recvfrom"
let recvfrom fd buf pos len flags =
if pos < 0 || len < 0 || pos > length buf - len then
invalid_arg "Lwt_bytes.recvfrom"
else
wrap_syscall Read fd (fun () -> stub_recvfrom (unix_file_descr fd) buf pos len flags)
external stub_sendto : Unix.file_descr -> t -> int -> int -> Unix.msg_flag list -> Unix.sockaddr -> int = "lwt_unix_bytes_sendto_byte" "lwt_unix_bytes_sendto"
let sendto fd buf pos len flags addr =
if pos < 0 || len < 0 || pos > length buf - len then
invalid_arg "Lwt_bytes.sendto"
else
wrap_syscall Write fd (fun () -> stub_sendto (unix_file_descr fd) buf pos len flags addr)
let map_file ~fd ?pos ~shared ?(size=(-1)) () =
Unix.map_file fd ?pos char c_layout shared [|size|]
|> Bigarray.array1_of_genarray
[@@@ocaml.warning "-3"]
external mapped : t -> bool = "lwt_unix_mapped" "noalloc"
[@@@ocaml.warning "+3"]
type advice =
| MADV_NORMAL
| MADV_RANDOM
| MADV_SEQUENTIAL
| MADV_WILLNEED
| MADV_DONTNEED
| MADV_MERGEABLE
| MADV_UNMERGEABLE
| MADV_HUGEPAGE
| MADV_NOHUGEPAGE
external stub_madvise : t -> int -> int -> advice -> unit = "lwt_unix_madvise"
let madvise buf pos len advice =
if pos < 0 || len < 0 || pos > length buf - len then
invalid_arg "Lwt_bytes.madvise"
else
stub_madvise buf pos len advice
external get_page_size : unit -> int = "lwt_unix_get_page_size"
let page_size = get_page_size ()
external stub_mincore : t -> int -> int -> bool array -> unit = "lwt_unix_mincore"
let mincore buffer offset states =
if (offset mod page_size <> 0
|| offset < 0
|| length buffer - offset < (Array.length states - 1) * page_size + 1)
then
invalid_arg "Lwt_bytes.mincore"
else
stub_mincore buffer offset (Array.length states * page_size) states
external wait_mincore_job : t -> int -> unit job = "lwt_unix_wait_mincore_job"
let wait_mincore buffer offset =
if offset < 0 || offset >= length buffer then
invalid_arg "Lwt_bytes.wait_mincore"
else begin
let state = [|false|] in
mincore buffer (offset - (offset mod page_size)) state;
if state.(0) then
Lwt.return_unit
else
run_job (wait_mincore_job buffer offset)
end