ocaml-libusb/lib/libusb.ml

open Ctypes

include T
module L = G.P(Bindings)
module GT = G.U

let request_type_standard = GT.request_type_standard |> Signed.Int64.to_int
let request_type_class    = GT.request_type_class    |> Signed.Int64.to_int
let request_type_vendor   = GT.request_type_vendor   |> Signed.Int64.to_int
let request_type_reserved = GT.request_type_reserved |> Signed.Int64.to_int

let endpoint_direction_in  = GT.endpoint_direction_in  |> Signed.Int64.to_int
let endpoint_direction_out = GT.endpoint_direction_out |> Signed.Int64.to_int

let recipient_device    = GT.libusb_recipient_device    |> Signed.Int64.to_int
let recipient_interface = GT.libusb_recipient_interface |> Signed.Int64.to_int
let recipient_endpoint  = GT.libusb_recipient_endpoint  |> Signed.Int64.to_int
let recipient_other     = GT.libusb_recipient_other     |> Signed.Int64.to_int

let string_of_error = function
  | Success -> "Success"
  | Number n -> Printf.sprintf "Positive number: %d" n
  | e -> L.error_name e

let description_of_error = function
  | Success -> "Success"
  | Number n -> Printf.sprintf "Positive number: %d" n
  | e -> L.error_description e

let init_libusb () =
  match L.init null with
  | Success -> Ok ()
  | Number _ -> assert false
  | e -> Error e

let exit_libusb () = L.exit null

let get_version () =
  let sv = !@ (L.get_version ()) in
  {
    major = getf sv GT.version_major |> Unsigned.UInt16.to_int;
    minor = getf sv GT.version_minor |> Unsigned.UInt16.to_int;
    micro = getf sv GT.version_micro |> Unsigned.UInt16.to_int;
    nano = getf sv GT.version_nano |> Unsigned.UInt16.to_int;
    rc = getf sv GT.version_rc;
    describe = getf sv GT.version_describe;
  }

type device = GT.device structure ptr

let get_device_list () =
  let dl =
    from_voidp GT.device null
    |> allocate (ptr GT.device)
    |> allocate (ptr (ptr GT.device)) in

  match L.get_device_list null dl with
  | Success ->
    L.free_device_list !@dl 0;
    Ok []
  | Number nb_devices ->
    let l = CArray.from_ptr !@dl nb_devices
            |> CArray.to_list in
    L.free_device_list !@dl 0;
    Ok l
  | err -> Error err

let unref_device d = L.unref_device d

type device_handle = GT.device_handle structure ptr

let open_device ?(unref=true) d =
  let h = from_voidp GT.device_handle null
          |> allocate (ptr GT.device_handle) in
  match L.open_device d h with
  | Success ->
    if unref then unref_device d;
    Ok !@h
  | Number _ -> assert false
  | e -> Error e

let close_device h = L.close_device h

let get_device_descriptor d =
  let desc = make GT.device_descriptor in
  match L.get_device_descriptor d (addr desc) with
  | Success ->
    Ok {
      id_vendor = getf desc GT.device_descriptor_idvendor |> Unsigned.UInt16.to_int;
      id_product = getf desc GT.device_descriptor_idproduct |> Unsigned.UInt16.to_int;
      i_manufacturer = getf desc GT.device_descriptor_imanufacturer |> Unsigned.UInt8.to_int;
      i_product = getf desc GT.device_descriptor_iproduct |> Unsigned.UInt8.to_int;
    }
  | Number _ -> assert false
  | e -> Error e

let get_string_descriptor d i =
  if
    i <= 0
  then
    Error Error_not_found
  else
    let sz = Unsigned.UInt8.(to_int max_int) in
    let strptr = allocate_n char ~count:sz in
    match L.get_string_descriptor_ascii d (Unsigned.UInt8.of_int i) strptr sz with
    | Success -> assert false
    | Number n -> Ok (string_from_ptr strptr ~length:n |> String.trim)
    | e -> Error e

let is_vendor v d =
  match get_device_descriptor d with
  | Ok dd -> dd.id_vendor = v
  | _ -> false

let is_product p d =
match get_device_descriptor d with
  | Ok dd -> dd.id_product = p
  | _ -> false

let filter_devices f dl =
  let keep, unref = List.partition f dl in
  List.iter unref_device unref;
  keep

let control_transfer ~device_handle ~request_type ~request ~value ~index ~buffer ~timeout =
  let sz = Bigarray.Array1.dim buffer in
  L.control_transfer
    device_handle
    (Unsigned.UInt8.of_int request_type)
    (Unsigned.UInt8.of_int request)
    (Unsigned.UInt16.of_int value)
    (Unsigned.UInt16.of_int index)
    (bigarray_start array1 buffer)
    (Unsigned.UInt16.of_int sz)
    (Unsigned.UInt.of_int timeout)
Commit initial 2018-06-07 12:31:53 +00:00			`open Ctypes`

			`include T`
			`module L = G.P(Bindings)`
			`module GT = G.U`

			`let request_type_standard = GT.request_type_standard \|> Signed.Int64.to_int`
			`let request_type_class = GT.request_type_class \|> Signed.Int64.to_int`
			`let request_type_vendor = GT.request_type_vendor \|> Signed.Int64.to_int`
			`let request_type_reserved = GT.request_type_reserved \|> Signed.Int64.to_int`

			`let endpoint_direction_in = GT.endpoint_direction_in \|> Signed.Int64.to_int`
			`let endpoint_direction_out = GT.endpoint_direction_out \|> Signed.Int64.to_int`

			`let recipient_device = GT.libusb_recipient_device \|> Signed.Int64.to_int`
			`let recipient_interface = GT.libusb_recipient_interface \|> Signed.Int64.to_int`
			`let recipient_endpoint = GT.libusb_recipient_endpoint \|> Signed.Int64.to_int`
			`let recipient_other = GT.libusb_recipient_other \|> Signed.Int64.to_int`

			`let string_of_error = function`
			`\| Success -> "Success"`
			`\| Number n -> Printf.sprintf "Positive number: %d" n`
			`\| e -> L.error_name e`

			`let description_of_error = function`
			`\| Success -> "Success"`
			`\| Number n -> Printf.sprintf "Positive number: %d" n`
			`\| e -> L.error_description e`

			`let init_libusb () =`
			`match L.init null with`
			`\| Success -> Ok ()`
			`\| Number _ -> assert false`
			`\| e -> Error e`

			`let exit_libusb () = L.exit null`

			`let get_version () =`
			`let sv = !@ (L.get_version ()) in`
			`{`
			`major = getf sv GT.version_major \|> Unsigned.UInt16.to_int;`
			`minor = getf sv GT.version_minor \|> Unsigned.UInt16.to_int;`
			`micro = getf sv GT.version_micro \|> Unsigned.UInt16.to_int;`
			`nano = getf sv GT.version_nano \|> Unsigned.UInt16.to_int;`
			`rc = getf sv GT.version_rc;`
			`describe = getf sv GT.version_describe;`
			`}`

			`type device = GT.device structure ptr`

			`let get_device_list () =`
			`let dl =`
			`from_voidp GT.device null`
			`\|> allocate (ptr GT.device)`
			`\|> allocate (ptr (ptr GT.device)) in`

			`match L.get_device_list null dl with`
			`\| Success ->`
			`L.free_device_list !@dl 0;`
			`Ok []`
			`\| Number nb_devices ->`
			`let l = CArray.from_ptr !@dl nb_devices`
			`\|> CArray.to_list in`
			`L.free_device_list !@dl 0;`
			`Ok l`
			`\| err -> Error err`

			`let unref_device d = L.unref_device d`

			`type device_handle = GT.device_handle structure ptr`

			`let open_device ?(unref=true) d =`
			`let h = from_voidp GT.device_handle null`
			`\|> allocate (ptr GT.device_handle) in`
			`match L.open_device d h with`
			`\| Success ->`
			`if unref then unref_device d;`
			`Ok !@h`
			`\| Number _ -> assert false`
			`\| e -> Error e`

			`let close_device h = L.close_device h`

			`let get_device_descriptor d =`
			`let desc = make GT.device_descriptor in`
			`match L.get_device_descriptor d (addr desc) with`
			`\| Success ->`
			`Ok {`
			`id_vendor = getf desc GT.device_descriptor_idvendor \|> Unsigned.UInt16.to_int;`
			`id_product = getf desc GT.device_descriptor_idproduct \|> Unsigned.UInt16.to_int;`
			`i_manufacturer = getf desc GT.device_descriptor_imanufacturer \|> Unsigned.UInt8.to_int;`
			`i_product = getf desc GT.device_descriptor_iproduct \|> Unsigned.UInt8.to_int;`
			`}`
			`\| Number _ -> assert false`
			`\| e -> Error e`

			`let get_string_descriptor d i =`
			`if`
			`i <= 0`
			`then`
			`Error Error_not_found`
			`else`
			`let sz = Unsigned.UInt8.(to_int max_int) in`
			`let strptr = allocate_n char ~count:sz in`
			`match L.get_string_descriptor_ascii d (Unsigned.UInt8.of_int i) strptr sz with`
			`\| Success -> assert false`
			`\| Number n -> Ok (string_from_ptr strptr ~length:n \|> String.trim)`
			`\| e -> Error e`

			`let is_vendor v d =`
			`match get_device_descriptor d with`
			`\| Ok dd -> dd.id_vendor = v`
			`\| _ -> false`

			`let is_product p d =`
			`match get_device_descriptor d with`
			`\| Ok dd -> dd.id_product = p`
			`\| _ -> false`

			`let filter_devices f dl =`
			`let keep, unref = List.partition f dl in`
			`List.iter unref_device unref;`
			`keep`

			`let control_transfer ~device_handle ~request_type ~request ~value ~index ~buffer ~timeout =`
			`let sz = Bigarray.Array1.dim buffer in`
			`L.control_transfer`
			`device_handle`
			`(Unsigned.UInt8.of_int request_type)`
			`(Unsigned.UInt8.of_int request)`
			`(Unsigned.UInt16.of_int value)`
			`(Unsigned.UInt16.of_int index)`
			`(bigarray_start array1 buffer)`
			`(Unsigned.UInt16.of_int sz)`
			`(Unsigned.UInt.of_int timeout)`