package lwt
Promises and event-driven I/O
Install
Dune Dependency
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Maintainers
Sources
5.9.1.tar.gz
md5=18742da8b8fe3618e3fa700b7a884fe7
sha512=1c51fdb4d0856c89e2df08a1c0095ef28ebd0f613b07b03d0f66501ca5486515562071291e6d0932e57587ed0c9362c8b92c5c9eddb4d2bb2f5e129986b484a7
doc/src/lwt.unix/lwt_process.ml.html
Source file lwt_process.ml
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See LICENSE.md for details, or visit https://github.com/ocsigen/lwt/blob/master/LICENSE.md. *) open Lwt.Infix type command = string * string array let shell = if Sys.win32 then fun cmd -> ("", [|"cmd.exe"; "/c"; "\000" ^ cmd|]) else fun cmd -> ("", [|"/bin/sh"; "-c"; cmd|]) type redirection = [ `Keep | `Dev_null | `Close | `FD_copy of Unix.file_descr | `FD_move of Unix.file_descr ] (* +-----------------------------------------------------------------+ | OS-dependent command spawning | +-----------------------------------------------------------------+ *) type proc = { id : int; (* The process id. *) fd : Unix.file_descr; (* A handle on windows, and a dummy value of Unix. *) } let win32_get_fd fd redirection = match redirection with | `Keep -> Some fd | `Dev_null -> Some (Unix.openfile "nul" [Unix.O_RDWR; Unix.O_KEEPEXEC] 0o666) | `Close -> None | `FD_copy fd' -> Some fd' | `FD_move fd' -> Some fd' external win32_create_process : string option -> string -> string option -> string option -> (Unix.file_descr option * Unix.file_descr option * Unix.file_descr option) -> proc = "lwt_process_create_process" let win32_quote arg = if String.length arg > 0 && arg.[0] = '\000' then String.sub arg 1 (String.length arg - 1) else Filename.quote arg let win32_spawn ?cwd ?(stdin:redirection=`Keep) ?(stdout:redirection=`Keep) ?(stderr:redirection=`Keep) (prog, args) env = let cmdline = String.concat " " (List.map win32_quote (Array.to_list args)) in let env = match env with | None -> None | Some env -> let len = Array.fold_left (fun len str -> String.length str + len + 1) 1 env in let res = Bytes.create len in let ofs = Array.fold_left (fun ofs str -> let len = String.length str in String.blit str 0 res ofs len; Bytes.set res (ofs + len) '\000'; ofs + len + 1) 0 env in Bytes.set res ofs '\000'; Some (Bytes.unsafe_to_string res) in let stdin_fd = win32_get_fd Unix.stdin stdin and stdout_fd = win32_get_fd Unix.stdout stdout and stderr_fd = win32_get_fd Unix.stderr stderr in let proc = win32_create_process (if prog = "" then None else Some prog) cmdline env cwd (stdin_fd, stdout_fd, stderr_fd) in let close fd fd' = match fd with | `FD_move _ | `Dev_null -> Unix.close (match fd' with Some fd' -> fd' | _ -> assert false) | _ -> () in close stdin stdin_fd; close stdout stdout_fd; close stderr stderr_fd; proc external win32_wait_job : Unix.file_descr -> int Lwt_unix.job = "lwt_process_wait_job" let win32_waitproc proc = Lwt_unix.run_job (win32_wait_job proc.fd) >>= fun code -> Lwt.return (proc.id, Lwt_unix.WEXITED code, {Lwt_unix.ru_utime = 0.; Lwt_unix.ru_stime = 0.}) external win32_terminate_process : Unix.file_descr -> int -> unit = "lwt_process_terminate_process" let win32_terminate proc = win32_terminate_process proc.fd 1 let unix_redirect fd redirection = match redirection with | `Keep -> () | `Dev_null -> let dev_null = Unix.openfile "/dev/null" [Unix.O_RDWR; Unix.O_KEEPEXEC] 0o666 in Unix.dup2 ~cloexec:false dev_null fd; Unix.close dev_null | `Close -> Unix.close fd | `FD_copy fd' -> Unix.dup2 ~cloexec:false fd' fd | `FD_move fd' -> Unix.dup2 ~cloexec:false fd' fd; Unix.close fd' # 137 "src/unix/lwt_process.cppo.ml" external unix_exit : int -> 'a = "caml_unix_exit" # 142 "src/unix/lwt_process.cppo.ml" let unix_spawn ?cwd ?(stdin:redirection=`Keep) ?(stdout:redirection=`Keep) ?(stderr:redirection=`Keep) (prog, args) env = let prog = if prog = "" && Array.length args > 0 then args.(0) else prog in match Lwt_unix.fork () with | 0 -> unix_redirect Unix.stdin stdin; unix_redirect Unix.stdout stdout; unix_redirect Unix.stderr stderr; begin try begin match cwd with | None -> () | Some dir -> Sys.chdir dir end; match env with | None -> Unix.execvp prog args | Some env -> Unix.execvpe prog args env with _ -> (* Do not run at_exit hooks *) unix_exit 127 end | id -> let close = function | `FD_move fd -> Unix.close fd | _ -> () in close stdin; close stdout; close stderr; {id; fd = Unix.stdin} let unix_waitproc proc = Lwt_unix.wait4 [] proc.id let unix_terminate proc = Unix.kill proc.id Sys.sigkill let spawn = if Sys.win32 then win32_spawn else unix_spawn let waitproc = if Sys.win32 then win32_waitproc else unix_waitproc let terminate = if Sys.win32 then win32_terminate else unix_terminate (* +-----------------------------------------------------------------+ | Objects | +-----------------------------------------------------------------+ *) type state = | Running | Exited of Unix.process_status let status (_pid, status, _rusage) = status let rusage (_pid, _status, rusage) = rusage external cast_chan : 'a Lwt_io.channel -> unit Lwt_io.channel = "%identity" (* Transform a channel into a channel that only support closing. *) let ignore_close chan = ignore (Lwt_io.close chan) class virtual common timeout proc channels = let wait = waitproc proc in object(self) val mutable closed = false method pid = proc.id method state = match Lwt.poll wait with | None -> Running | Some (_pid, status, _rusage) -> Exited status method kill signum = if Lwt.state wait = Lwt.Sleep then Unix.kill proc.id signum method terminate = if Lwt.state wait = Lwt.Sleep then terminate proc method close = if closed then self#status else ( closed <- true; Lwt.protected (Lwt.join (List.map Lwt_io.close channels)) >>= fun () -> self#status ) method status = Lwt.protected wait >|= status method rusage = Lwt.protected wait >|= rusage initializer (* Ensure channels are closed when no longer used. *) List.iter (Gc.finalise ignore_close) channels; (* Handle timeout. *) match timeout with | None -> () | Some dt -> ignore ( (* Ignore errors since they can be obtained by self#close. *) Lwt.try_bind (fun () -> Lwt.choose [(Lwt_unix.sleep dt >>= fun () -> Lwt.return_false); (wait >>= fun _ -> Lwt.return_true)]) (function | true -> Lwt.return_unit | false -> self#terminate; self#close >>= fun _ -> Lwt.return_unit) (fun _ -> (* The exception is dropped because it can be obtained with self#close. *) Lwt.return_unit) ) end class process_none ?timeout ?env ?cwd ?stdin ?stdout ?stderr cmd = let proc = spawn cmd env ?cwd ?stdin ?stdout ?stderr in object inherit common timeout proc [] end class process_in ?timeout ?env ?cwd ?stdin ?stderr cmd = let stdout_r, stdout_w = Lwt_unix.pipe_in ~cloexec:true () in let proc = spawn cmd env ?cwd ?stdin ~stdout:(`FD_move stdout_w) ?stderr in let stdout = Lwt_io.of_fd ~mode:Lwt_io.input stdout_r in object inherit common timeout proc [cast_chan stdout] method stdout = stdout end class process_out ?timeout ?env ?cwd ?stdout ?stderr cmd = let stdin_r, stdin_w = Lwt_unix.pipe_out ~cloexec:true () in let proc = spawn cmd env ?cwd ~stdin:(`FD_move stdin_r) ?stdout ?stderr in let stdin = Lwt_io.of_fd ~mode:Lwt_io.output stdin_w in object inherit common timeout proc [cast_chan stdin] method stdin = stdin end class process ?timeout ?env ?cwd ?stderr cmd = let stdin_r, stdin_w = Lwt_unix.pipe_out ~cloexec:true () and stdout_r, stdout_w = Lwt_unix.pipe_in ~cloexec:true () in let proc = spawn cmd env ?cwd ~stdin:(`FD_move stdin_r) ~stdout:(`FD_move stdout_w) ?stderr in let stdin = Lwt_io.of_fd ~mode:Lwt_io.output stdin_w and stdout = Lwt_io.of_fd ~mode:Lwt_io.input stdout_r in object inherit common timeout proc [cast_chan stdin; cast_chan stdout] method stdin = stdin method stdout = stdout end class process_full ?timeout ?env ?cwd cmd = let stdin_r, stdin_w = Lwt_unix.pipe_out ~cloexec:true () and stdout_r, stdout_w = Lwt_unix.pipe_in ~cloexec:true () and stderr_r, stderr_w = Lwt_unix.pipe_in ~cloexec:true () in let proc = spawn cmd env ?cwd ~stdin:(`FD_move stdin_r) ~stdout:(`FD_move stdout_w) ~stderr:(`FD_move stderr_w) in let stdin = Lwt_io.of_fd ~mode:Lwt_io.output stdin_w and stdout = Lwt_io.of_fd ~mode:Lwt_io.input stdout_r and stderr = Lwt_io.of_fd ~mode:Lwt_io.input stderr_r in object inherit common timeout proc [cast_chan stdin; cast_chan stdout; cast_chan stderr] method stdin = stdin method stdout = stdout method stderr = stderr end let open_process_none ?timeout ?env ?cwd ?stdin ?stdout ?stderr cmd = new process_none ?timeout ?env ?cwd ?stdin ?stdout ?stderr cmd let open_process_in ?timeout ?env ?cwd ?stdin ?stderr cmd = new process_in ?timeout ?env ?cwd ?stdin ?stderr cmd let open_process_out ?timeout ?env ?cwd ?stdout ?stderr cmd = new process_out ?timeout ?env ?cwd ?stdout ?stderr cmd let open_process ?timeout ?env ?cwd ?stderr cmd = new process ?timeout ?env ?cwd ?stderr cmd let open_process_full ?timeout ?env ?cwd cmd = new process_full ?timeout ?env ?cwd cmd let make_with backend ?timeout ?env ?cwd cmd f = let process = backend ?timeout ?env ?cwd cmd in Lwt.finalize (fun () -> f process) (fun () -> process#close >>= fun _ -> Lwt.return_unit) let with_process_none ?timeout ?env ?cwd ?stdin ?stdout ?stderr cmd f = make_with (open_process_none ?stdin ?stdout ?stderr) ?timeout ?env ?cwd cmd f let with_process_in ?timeout ?env ?cwd ?stdin ?stderr cmd f = make_with (open_process_in ?stdin ?stderr) ?timeout ?env ?cwd cmd f let with_process_out ?timeout ?env ?cwd ?stdout ?stderr cmd f = make_with (open_process_out ?stdout ?stderr) ?timeout ?env ?cwd cmd f let with_process ?timeout ?env ?cwd ?stderr cmd f = make_with (open_process ?stderr) ?timeout ?env ?cwd cmd f let with_process_full ?timeout ?env ?cwd cmd f = make_with open_process_full ?timeout ?env ?cwd cmd f (* +-----------------------------------------------------------------+ | High-level functions | +-----------------------------------------------------------------+ *) let exec ?timeout ?env ?cwd ?stdin ?stdout ?stderr cmd = (open_process_none ?timeout ?env ?cwd ?stdin ?stdout ?stderr cmd)#close let ignore_close ch = ignore (Lwt_io.close ch) let read_opt read ic = Lwt.catch (fun () -> read ic >|= fun x -> Some x) (function | Unix.Unix_error (Unix.EPIPE, _, _) | End_of_file -> Lwt.return_none | exn -> Lwt.reraise exn) [@ocaml.warning "-4"] let recv_chars pr = let ic = pr#stdout in Gc.finalise ignore_close ic; Lwt_stream.from (fun _ -> read_opt Lwt_io.read_char ic >>= fun x -> if x = None then begin Lwt_io.close ic >>= fun () -> Lwt.return x end else Lwt.return x) let recv_lines pr = let ic = pr#stdout in Gc.finalise ignore_close ic; Lwt_stream.from (fun _ -> read_opt Lwt_io.read_line ic >>= fun x -> if x = None then begin Lwt_io.close ic >>= fun () -> Lwt.return x end else Lwt.return x) let recv pr = let ic = pr#stdout in Lwt.finalize (fun () -> Lwt_io.read ic) (fun () -> Lwt_io.close ic) let recv_line pr = let ic = pr#stdout in Lwt.finalize (fun () -> Lwt_io.read_line ic) (fun () -> Lwt_io.close ic) let send f pr data = let oc = pr#stdin in Lwt.finalize (fun () -> f oc data) (fun () -> Lwt_io.close oc) (* Receiving *) let pread ?timeout ?env ?cwd ?stdin ?stderr cmd = recv (open_process_in ?timeout ?env ?cwd ?stdin ?stderr cmd) let pread_chars ?timeout ?env ?cwd ?stdin ?stderr cmd = recv_chars (open_process_in ?timeout ?env ?cwd ?stdin ?stderr cmd) let pread_line ?timeout ?env ?cwd ?stdin ?stderr cmd = recv_line (open_process_in ?timeout ?env ?cwd ?stdin ?stderr cmd) let pread_lines ?timeout ?env ?cwd ?stdin ?stderr cmd = recv_lines (open_process_in ?timeout ?env ?cwd ?stdin ?stderr cmd) (* Sending *) let pwrite ?timeout ?env ?cwd ?stdout ?stderr cmd text = send Lwt_io.write (open_process_out ?timeout ?env ?cwd ?stdout ?stderr cmd) text let pwrite_chars ?timeout ?env ?cwd ?stdout ?stderr cmd chars = send Lwt_io.write_chars (open_process_out ?timeout ?env ?cwd ?stdout ?stderr cmd) chars let pwrite_line ?timeout ?env ?cwd ?stdout ?stderr cmd line = send Lwt_io.write_line (open_process_out ?timeout ?env ?cwd ?stdout ?stderr cmd) line let pwrite_lines ?timeout ?env ?cwd ?stdout ?stderr cmd lines = send Lwt_io.write_lines (open_process_out ?timeout ?env ?cwd ?stdout ?stderr cmd) lines (* Mapping *) type 'a map_state = | Init | Save of 'a option Lwt.t | Done (* Monitor the thread [sender] in the stream [st] so write errors are reported. *) let monitor sender st = let sender = sender >|= fun () -> None in let state = ref Init in Lwt_stream.from (fun () -> match !state with | Init -> let getter = Lwt.apply Lwt_stream.get st in let result _ = match Lwt.state sender with | Lwt.Sleep -> (* The sender is still sleeping, behave as the getter. *) getter | Lwt.Return _ -> (* The sender terminated successfully, we are done monitoring it. *) state := Done; getter | Lwt.Fail _ -> (* The sender failed, behave as the sender for this element and save current getter. *) state := Save getter; sender in Lwt.try_bind (fun () -> Lwt.choose [sender; getter]) result result | Save t -> state := Done; t | Done -> Lwt_stream.get st) let pmap ?timeout ?env ?cwd ?stderr cmd text = let pr = open_process ?timeout ?env ?cwd ?stderr cmd in (* Start the sender and getter at the same time. *) let sender = send Lwt_io.write pr text in let getter = recv pr in Lwt.catch (fun () -> (* Wait for both to terminate, returning the result of the getter. *) sender >>= fun () -> getter) (function | Lwt.Canceled as exn -> (* Cancel the getter if the sender was canceled. *) Lwt.cancel getter; Lwt.reraise exn | exn -> Lwt.reraise exn) let pmap_chars ?timeout ?env ?cwd ?stderr cmd chars = let pr = open_process ?timeout ?env ?cwd ?stderr cmd in let sender = send Lwt_io.write_chars pr chars in monitor sender (recv_chars pr) let pmap_line ?timeout ?env ?cwd ?stderr cmd line = let pr = open_process ?timeout ?env ?cwd ?stderr cmd in (* Start the sender and getter at the same time. *) let sender = send Lwt_io.write_line pr line in let getter = recv_line pr in Lwt.catch (fun () -> (* Wait for both to terminate, returning the result of the getter. *) sender >>= fun () -> getter) (function | Lwt.Canceled as exn -> (* Cancel the getter if the sender was canceled. *) Lwt.cancel getter; Lwt.reraise exn | exn -> Lwt.reraise exn) let pmap_lines ?timeout ?env ?cwd ?stderr cmd lines = let pr = open_process ?timeout ?env ?cwd ?stderr cmd in let sender = send Lwt_io.write_lines pr lines in monitor sender (recv_lines pr)