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132 lines
5.4 KiB
132 lines
5.4 KiB
(*
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* Copyright (c) 2016 - present Facebook, Inc.
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* All rights reserved.
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*
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* This source code is licensed under the BSD style license found in the
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* LICENSE file in the root directory of this source tree. An additional grant
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* of patent rights can be found in the PATENTS file in the same directory.
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*)
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open! IStd
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module L = Logging
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module F = Format
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(** Prints an error message to a log file, prints a message saying that the error can be
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found in that file, and exits, with default code 1 or a given code. *)
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let print_error_and_exit ?(exit_code=1) fmt =
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F.kfprintf (fun _ ->
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L.do_out "%s" (F.flush_str_formatter ());
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let log_file = L.log_file_name () in
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L.stderr "@\nAn error occured. Please find details in %s@\n@\n%!" log_file;
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exit exit_code
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)
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F.str_formatter fmt
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(** Given a command to be executed, create a process to execute this command, and wait for it to
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terminate. The standard out and error are not redirected. If the command fails to execute,
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print an error message and exit. *)
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let create_process_and_wait ~prog ~args =
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Unix.fork_exec ~prog ~args:(prog :: args) ()
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|> Unix.waitpid
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|> function
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| Ok () -> ()
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| Error err as status ->
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L.stderr "Error executing: %s@\n%s@\n"
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(String.concat ~sep:" " (prog :: args)) (Unix.Exit_or_signal.to_string_hum status) ;
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exit (match err with `Exit_non_zero i -> i | `Signal _ -> 1)
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(** Given a process id and a function that describes the command that the process id
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represents, prints a message explaining the command and its status, if in debug or stats mode.
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It also prints a dot to show progress of jobs being finished. *)
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let print_status ~fail_on_failed_job f pid status =
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L.out "%a%s@."
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(fun fmt pid -> F.pp_print_string fmt (f pid)) pid
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(Unix.Exit_or_signal.to_string_hum status) ;
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L.progress ".%!";
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match status with
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| Error err when fail_on_failed_job ->
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exit (match err with `Exit_non_zero i -> i | `Signal _ -> 1)
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| _ -> ()
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let start_current_jobs_count () = ref 0
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let waited_for_jobs = ref 0
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module PidMap = Caml.Map.Make (Pid)
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(** [wait_for_son pid_child f jobs_count] wait for pid_child
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and all the other children and update the current jobs count.
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Use f to print the job status *)
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let rec wait_for_child ~fail_on_failed_job f current_jobs_count jobs_map =
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let pid, status = Unix.wait `Any in
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Pervasives.decr current_jobs_count;
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Pervasives.incr waited_for_jobs;
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print_status ~fail_on_failed_job f pid status;
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jobs_map := PidMap.remove pid !jobs_map;
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if not (PidMap.is_empty !jobs_map) then
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wait_for_child ~fail_on_failed_job f current_jobs_count jobs_map
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let pid_to_program jobsMap pid =
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try
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PidMap.find pid jobsMap
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with Not_found -> ""
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(** [run_jobs_in_parallel jobs_stack gen_prog prog_to_string] runs the jobs in the given stack, by
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spawning the jobs in batches of n, where n is [Config.jobs]. It then waits for all those jobs
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and starts a new batch and so on. [gen_prog] should return a tuple [(dir_opt, command, args,
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env)] where [dir_opt] is an optional directory to chdir to before executing [command] with
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[args] in [env]. [prog_to_string] is used for printing information about the job's status. *)
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let run_jobs_in_parallel ?(fail_on_failed_job=false) jobs_stack gen_prog prog_to_string =
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let run_job () =
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let jobs_map = ref PidMap.empty in
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let current_jobs_count = start_current_jobs_count () in
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while not (Stack.is_empty jobs_stack) do
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let job_prog = Stack.pop_exn jobs_stack in
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let (dir_opt, prog, args, env) = gen_prog job_prog in
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Pervasives.incr current_jobs_count;
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match Unix.fork () with
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| `In_the_child ->
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Option.iter dir_opt ~f:Unix.chdir ;
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Unix.exec ~prog ~args:(prog :: args) ~env ~use_path:false
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|> Unix.handle_unix_error
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|> never_returns
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| `In_the_parent pid_child ->
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jobs_map := PidMap.add pid_child (prog_to_string job_prog) !jobs_map;
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if Int.equal (Stack.length jobs_stack) 0 || !current_jobs_count >= Config.jobs then
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wait_for_child ~fail_on_failed_job (pid_to_program !jobs_map) current_jobs_count
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jobs_map
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done in
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run_job ();
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L.progress ".@.";
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L.out "Waited for %d jobs" !waited_for_jobs
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let pipeline ~producer_prog ~producer_args ~consumer_prog ~consumer_args =
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let pipe_in, pipe_out = Unix.pipe () in
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match Unix.fork () with
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| `In_the_child ->
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(* redirect producer's stdout to pipe_out *)
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Unix.dup2 ~src:pipe_out ~dst:Unix.stdout ;
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(* close producer's copy of pipe ends *)
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Unix.close pipe_out ;
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Unix.close pipe_in ;
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(* exec producer *)
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never_returns (Unix.exec ~prog:producer_prog ~args:producer_args ())
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| `In_the_parent producer_pid ->
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match Unix.fork () with
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| `In_the_child ->
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(* redirect consumer's stdin to pipe_in *)
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Unix.dup2 ~src:pipe_in ~dst:Unix.stdin ;
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(* close consumer's copy of pipe ends *)
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Unix.close pipe_out ;
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Unix.close pipe_in ;
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(* exec consumer *)
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never_returns (Unix.exec ~prog:consumer_prog ~args:consumer_args ())
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| `In_the_parent consumer_pid ->
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(* close parent's copy of pipe ends *)
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Unix.close pipe_out ;
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Unix.close pipe_in ;
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(* wait for children *)
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let producer_status = Unix.waitpid producer_pid in
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let consumer_status = Unix.waitpid consumer_pid in
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(producer_status, consumer_status)
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