package shell

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Extensions to Core.Unix.

val fork_exec : ?stdin:Core.Unix.File_descr.t -> ?stdout:Core.Unix.File_descr.t -> ?stderr:Core.Unix.File_descr.t -> ?path_lookup:bool -> ?env: [ `Extend of (string * string) list | `Replace of (string * string) list ] -> ?working_dir:string -> ?setuid:int -> ?setgid:int -> string -> string list -> Core.Pid.t

fork_exec prog args ~stdin ~stdout ~stderr ~setuid ~setgid forks a new process that executes the program in file prog, with arguments args. The pid of the new process is returned immediately; the new process executes concurrently with the current process.

The function raises EPERM if when using set{gid,uid} and the user id is not 0.

The standard input and outputs of the new process are connected to the descriptors stdin, stdout and stderr.

The close_on_exec flag is cleared from stderr stdout and stdin so it's safe to pass in fds with close_on_exec set.

  • parameter path_lookup

    if true than we use PATH to find the process to exec. @env specifies the environment the process runs in

    ERRORS: Unix.unix_error. This function should not raise EINTR; it will restart itself automatically.

    RATIONAL: setuid and setgid do not do a full id drop (e.g.: they save the id in saved id) when the user does not have the privileges required to setuid to anyone.

    By default all file descriptors should be set_closexec ASAP after being open to avoid being captured in parallel execution of fork_exec; resetting the closexec flag on the forked flag is a cleaner and more thread safe approach.

    BUGS: The capabilities for setuid in linux are not tied to the uid 0 (man 7 capabilities). It is still fair to assume that under most system this capability is there IFF uid == 0. A more fine grain permissionning approach would make this function non-portable and be hard to implement in an async-signal-way.

    Because this function keeps the lock for most of its lifespan and restarts automatically on EINTR it might prevent the OCaml signal handlers to run in that thread.

val seteuid : int -> unit
val setreuid : uid:int -> euid:int -> unit
val ntohl : Core.Int32.t -> Core.Int32.t

Network to host order long, like C.

val htonl : Core.Int32.t -> Core.Int32.t

Host to network order long, like C.

type statvfs = {
  1. bsize : int;
    (*

    file system block size

    *)
  2. frsize : int;
    (*

    fragment size

    *)
  3. blocks : int;
    (*

    size of fs in frsize units

    *)
  4. bfree : int;
    (*

    # free blocks

    *)
  5. bavail : int;
    (*

    # free blocks for non-root

    *)
  6. files : int;
    (*

    # inodes

    *)
  7. ffree : int;
    (*

    # free inodes

    *)
  8. favail : int;
    (*

    # free inodes for non-root

    *)
  9. fsid : int;
    (*

    file system ID

    *)
  10. flag : int;
    (*

    mount flags

    *)
  11. namemax : int;
    (*

    maximum filename length

    *)
}
val sexp_of_statvfs : statvfs -> Ppx_sexp_conv_lib.Sexp.t
val statvfs_of_sexp : Ppx_sexp_conv_lib.Sexp.t -> statvfs
val bin_shape_statvfs : Core.Bin_prot.Shape.t
val bin_size_statvfs : statvfs Core.Bin_prot.Size.sizer
val bin_write_statvfs : statvfs Core.Bin_prot.Write.writer
val bin_writer_statvfs : statvfs Core.Bin_prot.Type_class.writer
val bin_read_statvfs : statvfs Core.Bin_prot.Read.reader
val __bin_read_statvfs__ : (int -> statvfs) Core.Bin_prot.Read.reader
val bin_reader_statvfs : statvfs Core.Bin_prot.Type_class.reader
val statvfs : string -> statvfs

get file system statistics

val getloadavg : unit -> float * float * float

get load averages

module Extended_passwd : sig ... end
val strptime : fmt:string -> string -> Core.Unix.tm

The CIDR module moved into Core.Unix

module Inet_port : sig ... end

Simple int wrapper to be explicit about ports.

module Mac_address : sig ... end
module Quota : sig ... end
module Mount_entry : sig ... end
val terminal_width : int Core.Lazy.t
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