(***********************************************************************) (* *) (* ocamlbuild *) (* *) (* Nicolas Pouillard, Berke Durak, projet Gallium, INRIA Rocquencourt *) (* *) (* Copyright 2007 Institut National de Recherche en Informatique et *) (* en Automatique. All rights reserved. This file is distributed *) (* under the terms of the GNU Library General Public License, with *) (* the special exception on linking described in file ../LICENSE. *) (* *) (***********************************************************************) (* Original author: Berke Durak *) (* Ocamlbuild_executor *) open Unix;; type error = | Subcommand_failed | Subcommand_got_signal | Io_error | Exceptionl_condition type task = unit -> string;; type job = { job_id : int * int; job_command : string; job_next : task list; job_result : bool ref; (* Result of this sequence group *) job_stdout : in_channel; job_stdin : out_channel; job_stderr : in_channel; job_buffer : Buffer.t; mutable job_dying : bool; };; module JS = Set.Make(struct type t = job let compare = compare end);; module FDM = Map.Make(struct type t = file_descr let compare = compare end);; let sf = Printf.sprintf;; let fp = Printf.fprintf;; (*** print_unix_status *) (* FIXME never called *) let print_unix_status oc = function | WEXITED x -> fp oc "exit %d" x | WSIGNALED i -> fp oc "signal %d" i | WSTOPPED i -> fp oc "stop %d" i ;; (* ***) (*** print_job_id *) let print_job_id oc (x,y) = fp oc "%d.%d" x y;; (* ***) (*** output_lines *) let output_lines prefix oc buffer = let u = Buffer.contents buffer in let m = String.length u in let output_line i j = output_string oc prefix; output_substring oc u i (j - i); output_char oc '\n' in let rec loop i = if i < m then let j = try String.index_from u i '\n' with Not_found -> m in output_line i j; loop (j + 1) else () in loop 0 ;; (* ***) (*** execute *) (* XXX: Add test for non reentrancy *) let execute ?(max_jobs=max_int) ?(ticker=ignore) ?(period=0.1) ?(display=(fun f -> f Pervasives.stdout)) ~exit (commands : task list list) = let batch_id = ref 0 in let env = environment () in let jobs = ref JS.empty in let jobs_active = ref 0 in let jobs_to_terminate = Queue.create () in let commands_to_execute = Queue.create () in let all_ok = ref true in let results = List.map (fun tasks -> let result = ref false in Queue.add (tasks, result) commands_to_execute; result) commands in let outputs = ref FDM.empty in let doi = descr_of_in_channel in let doo = descr_of_out_channel in (*** compute_fds *) let compute_fds = let fds = ref ([], [], []) in let prev_jobs = ref JS.empty in fun () -> if not (!prev_jobs == !jobs) then begin prev_jobs := !jobs; fds := JS.fold begin fun job (rfds, wfds, xfds) -> let ofd = doi job.job_stdout and ifd = doo job.job_stdin and efd = doi job.job_stderr in (ofd :: efd :: rfds, wfds, ofd :: ifd :: efd :: xfds) end !jobs ([], [], []) end; !fds in (* ***) (*** add_job *) let add_job cmd rest result id = (*display begin fun oc -> fp oc "Job %a is %s\n%!" print_job_id id cmd; end;*) let (stdout', stdin', stderr') = open_process_full cmd env in incr jobs_active; set_nonblock (doi stdout'); set_nonblock (doi stderr'); let job = { job_id = id; job_command = cmd; job_next = rest; job_result = result; job_stdout = stdout'; job_stdin = stdin'; job_stderr = stderr'; job_buffer = Buffer.create 1024; job_dying = false } in outputs := FDM.add (doi stdout') job (FDM.add (doi stderr') job !outputs); jobs := JS.add job !jobs; in (* ***) (*** skip_empty_tasks *) let rec skip_empty_tasks = function | [] -> None | task :: tasks -> let cmd = task () in if cmd = "" then skip_empty_tasks tasks else Some(cmd, tasks) in (* ***) (*** add_some_jobs *) let add_some_jobs () = let (tasks, result) = Queue.take commands_to_execute in match skip_empty_tasks tasks with | None -> result := false | Some(cmd, rest) -> let b_id = !batch_id in incr batch_id; add_job cmd rest result (b_id, 0) in (* ***) (*** terminate *) let terminate ?(continue=true) job = if not job.job_dying then begin job.job_dying <- true; Queue.add (job, continue) jobs_to_terminate end else () in (* ***) (*** add_more_jobs_if_possible *) let add_more_jobs_if_possible () = while !jobs_active < max_jobs && not (Queue.is_empty commands_to_execute) do add_some_jobs () done in (* ***) (*** do_read *) let do_read = let u = Bytes.create 4096 in fun ?(loop=false) fd job -> (*if job.job_dying then () else*) try let rec iteration () = let m = try read fd u 0 (Bytes.length u) with | Unix.Unix_error(e,_,_) -> let msg = error_message e in display (fun oc -> fp oc "Error while reading stdout/stderr: %s\n" msg); 0 in if m = 0 then if job.job_dying then () else terminate job else begin Buffer.add_subbytes job.job_buffer u 0 m; if loop then iteration () else () end in iteration () with | x -> display begin fun oc -> fp oc "Exception %s while reading output of command %S\n%!" job.job_command (Printexc.to_string x); end; exit Io_error in (* ***) (*** process_jobs_to_terminate *) let process_jobs_to_terminate () = while not (Queue.is_empty jobs_to_terminate) do ticker (); let (job, continue) = Queue.take jobs_to_terminate in (*display begin fun oc -> fp oc "Terminating job %a\n%!" print_job_id job.job_id; end;*) decr jobs_active; (* PR#5371: we would get EAGAIN below otherwise *) clear_nonblock (doi job.job_stdout); clear_nonblock (doi job.job_stderr); do_read ~loop:true (doi job.job_stdout) job; do_read ~loop:true (doi job.job_stderr) job; outputs := FDM.remove (doi job.job_stdout) (FDM.remove (doi job.job_stderr) !outputs); jobs := JS.remove job !jobs; let status = close_process_full (job.job_stdout, job.job_stdin, job.job_stderr) in let shown = ref false in let show_command () = if !shown then () else display begin fun oc -> shown := true; fp oc "+ %s\n" job.job_command; output_lines "" oc job.job_buffer end in if Buffer.length job.job_buffer > 0 then show_command (); begin match status with | Unix.WEXITED 0 -> begin if continue then begin match skip_empty_tasks job.job_next with | None -> job.job_result := true | Some(cmd, rest) -> let (b_id, s_id) = job.job_id in add_job cmd rest job.job_result (b_id, s_id + 1) end else all_ok := false; end | Unix.WEXITED rc -> show_command (); display (fun oc -> fp oc "Command exited with code %d.\n" rc); all_ok := false; exit Subcommand_failed | Unix.WSTOPPED s | Unix.WSIGNALED s -> show_command (); all_ok := false; display (fun oc -> fp oc "Command got signal %d.\n" s); exit Subcommand_got_signal end done in (* ***) (*** terminate_all_jobs *) let terminate_all_jobs () = JS.iter (terminate ~continue:false) !jobs in (* ***) (*** loop *) let rec loop () = (*display (fun oc -> fp oc "Total %d jobs\n" !jobs_active);*) process_jobs_to_terminate (); add_more_jobs_if_possible (); if JS.is_empty !jobs then () else begin let (rfds, wfds, xfds) = compute_fds () in ticker (); let (chrfds, chwfds, chxfds) = select rfds wfds xfds period in List.iter begin fun (fdlist, hook) -> List.iter begin fun fd -> try let job = FDM.find fd !outputs in ticker (); hook fd job with | Not_found -> () (* XXX *) end fdlist end [chrfds, do_read ~loop:false; chwfds, (fun _ _ -> ()); chxfds, begin fun _ _job -> (*display (fun oc -> fp oc "Exceptional condition on command %S\n%!" job.job_command); exit Exceptional_condition*) () (* FIXME *) end]; loop () end in try loop (); None with | x -> begin try terminate_all_jobs () with | x' -> display (fun oc -> fp oc "Extra exception %s\n%!" (Printexc.to_string x')) end; Some(List.map (!) results, x) ;; (* ***)