cpdf-source/cpdfunix.ml

1075 lines
32 KiB
OCaml

(***********************************************************************)
(* *)
(* OCaml *)
(* *)
(* Xavier Leroy, projet Cristal, INRIA Rocquencourt *)
(* *)
(* Copyright 1996 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. *)
(* *)
(***********************************************************************)
type error =
E2BIG
| EACCES
| EAGAIN
| EBADF
| EBUSY
| ECHILD
| EDEADLK
| EDOM
| EEXIST
| EFAULT
| EFBIG
| EINTR
| EINVAL
| EIO
| EISDIR
| EMFILE
| EMLINK
| ENAMETOOLONG
| ENFILE
| ENODEV
| ENOENT
| ENOEXEC
| ENOLCK
| ENOMEM
| ENOSPC
| ENOSYS
| ENOTDIR
| ENOTEMPTY
| ENOTTY
| ENXIO
| EPERM
| EPIPE
| ERANGE
| EROFS
| ESPIPE
| ESRCH
| EXDEV
| EWOULDBLOCK
| EINPROGRESS
| EALREADY
| ENOTSOCK
| EDESTADDRREQ
| EMSGSIZE
| EPROTOTYPE
| ENOPROTOOPT
| EPROTONOSUPPORT
| ESOCKTNOSUPPORT
| EOPNOTSUPP
| EPFNOSUPPORT
| EAFNOSUPPORT
| EADDRINUSE
| EADDRNOTAVAIL
| ENETDOWN
| ENETUNREACH
| ENETRESET
| ECONNABORTED
| ECONNRESET
| ENOBUFS
| EISCONN
| ENOTCONN
| ESHUTDOWN
| ETOOMANYREFS
| ETIMEDOUT
| ECONNREFUSED
| EHOSTDOWN
| EHOSTUNREACH
| ELOOP
| EOVERFLOW
| EUNKNOWNERR of int
exception Unix_error of error * string * string
let _ = Callback.register_exception "Unix.Unix_error"
(Unix_error(E2BIG, "", ""))
external error_message : error -> string = "unix_error_message"
let () =
Printexc.register_printer
(function
| Unix_error (e, s, s') ->
let msg = match e with
| E2BIG -> "E2BIG"
| EACCES -> "EACCES"
| EAGAIN -> "EAGAIN"
| EBADF -> "EBADF"
| EBUSY -> "EBUSY"
| ECHILD -> "ECHILD"
| EDEADLK -> "EDEADLK"
| EDOM -> "EDOM"
| EEXIST -> "EEXIST"
| EFAULT -> "EFAULT"
| EFBIG -> "EFBIG"
| EINTR -> "EINTR"
| EINVAL -> "EINVAL"
| EIO -> "EIO"
| EISDIR -> "EISDIR"
| EMFILE -> "EMFILE"
| EMLINK -> "EMLINK"
| ENAMETOOLONG -> "ENAMETOOLONG"
| ENFILE -> "ENFILE"
| ENODEV -> "ENODEV"
| ENOENT -> "ENOENT"
| ENOEXEC -> "ENOEXEC"
| ENOLCK -> "ENOLCK"
| ENOMEM -> "ENOMEM"
| ENOSPC -> "ENOSPC"
| ENOSYS -> "ENOSYS"
| ENOTDIR -> "ENOTDIR"
| ENOTEMPTY -> "ENOTEMPTY"
| ENOTTY -> "ENOTTY"
| ENXIO -> "ENXIO"
| EPERM -> "EPERM"
| EPIPE -> "EPIPE"
| ERANGE -> "ERANGE"
| EROFS -> "EROFS"
| ESPIPE -> "ESPIPE"
| ESRCH -> "ESRCH"
| EXDEV -> "EXDEV"
| EWOULDBLOCK -> "EWOULDBLOCK"
| EINPROGRESS -> "EINPROGRESS"
| EALREADY -> "EALREADY"
| ENOTSOCK -> "ENOTSOCK"
| EDESTADDRREQ -> "EDESTADDRREQ"
| EMSGSIZE -> "EMSGSIZE"
| EPROTOTYPE -> "EPROTOTYPE"
| ENOPROTOOPT -> "ENOPROTOOPT"
| EPROTONOSUPPORT -> "EPROTONOSUPPORT"
| ESOCKTNOSUPPORT -> "ESOCKTNOSUPPORT"
| EOPNOTSUPP -> "EOPNOTSUPP"
| EPFNOSUPPORT -> "EPFNOSUPPORT"
| EAFNOSUPPORT -> "EAFNOSUPPORT"
| EADDRINUSE -> "EADDRINUSE"
| EADDRNOTAVAIL -> "EADDRNOTAVAIL"
| ENETDOWN -> "ENETDOWN"
| ENETUNREACH -> "ENETUNREACH"
| ENETRESET -> "ENETRESET"
| ECONNABORTED -> "ECONNABORTED"
| ECONNRESET -> "ECONNRESET"
| ENOBUFS -> "ENOBUFS"
| EISCONN -> "EISCONN"
| ENOTCONN -> "ENOTCONN"
| ESHUTDOWN -> "ESHUTDOWN"
| ETOOMANYREFS -> "ETOOMANYREFS"
| ETIMEDOUT -> "ETIMEDOUT"
| ECONNREFUSED -> "ECONNREFUSED"
| EHOSTDOWN -> "EHOSTDOWN"
| EHOSTUNREACH -> "EHOSTUNREACH"
| ELOOP -> "ELOOP"
| EOVERFLOW -> "EOVERFLOW"
| EUNKNOWNERR x -> Printf.sprintf "EUNKNOWNERR %d" x in
Some (Printf.sprintf "Unix.Unix_error(Unix.%s, %S, %S)" msg s s')
| _ -> None)
let handle_unix_error f arg =
try
f arg
with Unix_error(err, fun_name, arg) ->
prerr_string Sys.argv.(0);
prerr_string ": \"";
prerr_string fun_name;
prerr_string "\" failed";
if String.length arg > 0 then begin
prerr_string " on \"";
prerr_string arg;
prerr_string "\""
end;
prerr_string ": ";
prerr_endline (error_message err);
exit 2
external environment : unit -> string array = "unix_environment"
external getenv: string -> string = "caml_sys_getenv"
external putenv: string -> string -> unit = "unix_putenv"
type process_status =
WEXITED of int
| WSIGNALED of int
| WSTOPPED of int
type wait_flag =
WNOHANG
| WUNTRACED
external execv : string -> string array -> 'a = "unix_execv"
external execve : string -> string array -> string array -> 'a = "unix_execve"
external execvp : string -> string array -> 'a = "unix_execvp"
external execvpe : string -> string array -> string array -> 'a = "unix_execvpe"
external fork : unit -> int = "unix_fork"
external wait : unit -> int * process_status = "unix_wait"
external waitpid : wait_flag list -> int -> int * process_status
= "unix_waitpid"
external getpid : unit -> int = "unix_getpid"
external getppid : unit -> int = "unix_getppid"
external nice : int -> int = "unix_nice"
type file_descr = int
let stdin = 0
let stdout = 1
let stderr = 2
type open_flag =
O_RDONLY
| O_WRONLY
| O_RDWR
| O_NONBLOCK
| O_APPEND
| O_CREAT
| O_TRUNC
| O_EXCL
| O_NOCTTY
| O_DSYNC
| O_SYNC
| O_RSYNC
| O_SHARE_DELETE
| O_CLOEXEC
type file_perm = int
external openfile : string -> open_flag list -> file_perm -> file_descr
= "unix_open"
external close : file_descr -> unit = "unix_close"
external unsafe_read : file_descr -> string -> int -> int -> int = "unix_read"
external unsafe_write : file_descr -> string -> int -> int -> int = "unix_write"
external unsafe_single_write : file_descr -> string -> int -> int -> int
= "unix_single_write"
let read fd buf ofs len =
if ofs < 0 || len < 0 || ofs > String.length buf - len
then invalid_arg "Unix.read"
else unsafe_read fd buf ofs len
let write fd buf ofs len =
if ofs < 0 || len < 0 || ofs > String.length buf - len
then invalid_arg "Unix.write"
else unsafe_write fd buf ofs len
(* write misbehaves because it attempts to write all data by making repeated
calls to the Unix write function (see comment in write.c and unix.mli).
partial_write fixes this by never calling write twice. *)
let single_write fd buf ofs len =
if ofs < 0 || len < 0 || ofs > String.length buf - len
then invalid_arg "Unix.single_write"
else unsafe_single_write fd buf ofs len
external in_channel_of_descr : file_descr -> in_channel
= "caml_ml_open_descriptor_in"
external out_channel_of_descr : file_descr -> out_channel
= "caml_ml_open_descriptor_out"
external descr_of_in_channel : in_channel -> file_descr
= "caml_channel_descriptor"
external descr_of_out_channel : out_channel -> file_descr
= "caml_channel_descriptor"
type seek_command =
SEEK_SET
| SEEK_CUR
| SEEK_END
external lseek : file_descr -> int -> seek_command -> int = "unix_lseek"
external truncate : string -> int -> unit = "unix_truncate"
external ftruncate : file_descr -> int -> unit = "unix_ftruncate"
type file_kind =
S_REG
| S_DIR
| S_CHR
| S_BLK
| S_LNK
| S_FIFO
| S_SOCK
type stats =
{ st_dev : int;
st_ino : int;
st_kind : file_kind;
st_perm : file_perm;
st_nlink : int;
st_uid : int;
st_gid : int;
st_rdev : int;
st_size : int;
st_atime : float;
st_mtime : float;
st_ctime : float }
external stat : string -> stats = "unix_stat"
external lstat : string -> stats = "unix_lstat"
external fstat : file_descr -> stats = "unix_fstat"
external isatty : file_descr -> bool = "unix_isatty"
external unlink : string -> unit = "unix_unlink"
external rename : string -> string -> unit = "unix_rename"
external link : string -> string -> unit = "unix_link"
module LargeFile =
struct
external lseek : file_descr -> int64 -> seek_command -> int64
= "unix_lseek_64"
external truncate : string -> int64 -> unit = "unix_truncate_64"
external ftruncate : file_descr -> int64 -> unit = "unix_ftruncate_64"
type stats =
{ st_dev : int;
st_ino : int;
st_kind : file_kind;
st_perm : file_perm;
st_nlink : int;
st_uid : int;
st_gid : int;
st_rdev : int;
st_size : int64;
st_atime : float;
st_mtime : float;
st_ctime : float;
}
external stat : string -> stats = "unix_stat_64"
external lstat : string -> stats = "unix_lstat_64"
external fstat : file_descr -> stats = "unix_fstat_64"
end
type access_permission =
R_OK
| W_OK
| X_OK
| F_OK
external chmod : string -> file_perm -> unit = "unix_chmod"
external fchmod : file_descr -> file_perm -> unit = "unix_fchmod"
external chown : string -> int -> int -> unit = "unix_chown"
external fchown : file_descr -> int -> int -> unit = "unix_fchown"
external umask : int -> int = "unix_umask"
external access : string -> access_permission list -> unit = "unix_access"
external dup : file_descr -> file_descr = "unix_dup"
external dup2 : file_descr -> file_descr -> unit = "unix_dup2"
external set_nonblock : file_descr -> unit = "unix_set_nonblock"
external clear_nonblock : file_descr -> unit = "unix_clear_nonblock"
external set_close_on_exec : file_descr -> unit = "unix_set_close_on_exec"
external clear_close_on_exec : file_descr -> unit = "unix_clear_close_on_exec"
(* FD_CLOEXEC should be supported on all Unix systems these days,
but just in case... *)
let try_set_close_on_exec fd =
try set_close_on_exec fd; true with Invalid_argument _ -> false
external mkdir : string -> file_perm -> unit = "unix_mkdir"
external rmdir : string -> unit = "unix_rmdir"
external chdir : string -> unit = "unix_chdir"
external getcwd : unit -> string = "unix_getcwd"
external chroot : string -> unit = "unix_chroot"
type dir_handle
external opendir : string -> dir_handle = "unix_opendir"
external readdir : dir_handle -> string = "unix_readdir"
external rewinddir : dir_handle -> unit = "unix_rewinddir"
external closedir : dir_handle -> unit = "unix_closedir"
external pipe : unit -> file_descr * file_descr = "unix_pipe"
external symlink : string -> string -> unit = "unix_symlink"
external readlink : string -> string = "unix_readlink"
external mkfifo : string -> file_perm -> unit = "unix_mkfifo"
external select :
file_descr list -> file_descr list -> file_descr list -> float ->
file_descr list * file_descr list * file_descr list = "unix_select"
type lock_command =
F_ULOCK
| F_LOCK
| F_TLOCK
| F_TEST
| F_RLOCK
| F_TRLOCK
external lockf : file_descr -> lock_command -> int -> unit = "unix_lockf"
external kill : int -> int -> unit = "unix_kill"
type sigprocmask_command = SIG_SETMASK | SIG_BLOCK | SIG_UNBLOCK
external sigprocmask: sigprocmask_command -> int list -> int list
= "unix_sigprocmask"
external sigpending: unit -> int list = "unix_sigpending"
external sigsuspend: int list -> unit = "unix_sigsuspend"
let pause() =
let sigs = sigprocmask SIG_BLOCK [] in sigsuspend sigs
type process_times =
{ tms_utime : float;
tms_stime : float;
tms_cutime : float;
tms_cstime : float }
type tm =
{ tm_sec : int;
tm_min : int;
tm_hour : int;
tm_mday : int;
tm_mon : int;
tm_year : int;
tm_wday : int;
tm_yday : int;
tm_isdst : bool }
external time : unit -> float = "unix_time"
external gettimeofday : unit -> float = "unix_gettimeofday"
external gmtime : float -> tm = "unix_gmtime"
external localtime : float -> tm = "unix_localtime"
external mktime : tm -> float * tm = "unix_mktime"
external alarm : int -> int = "unix_alarm"
external sleep : int -> unit = "unix_sleep"
external times : unit -> process_times = "unix_times"
external utimes : string -> float -> float -> unit = "unix_utimes"
type interval_timer =
ITIMER_REAL
| ITIMER_VIRTUAL
| ITIMER_PROF
type interval_timer_status =
{ it_interval: float; (* Period *)
it_value: float } (* Current value of the timer *)
external getitimer: interval_timer -> interval_timer_status = "unix_getitimer"
external setitimer:
interval_timer -> interval_timer_status -> interval_timer_status
= "unix_setitimer"
external getuid : unit -> int = "unix_getuid"
external geteuid : unit -> int = "unix_geteuid"
external setuid : int -> unit = "unix_setuid"
external getgid : unit -> int = "unix_getgid"
external getegid : unit -> int = "unix_getegid"
external setgid : int -> unit = "unix_setgid"
external getgroups : unit -> int array = "unix_getgroups"
external setgroups : int array -> unit = "unix_setgroups"
external initgroups : string -> int -> unit = "unix_initgroups"
type passwd_entry =
{ pw_name : string;
pw_passwd : string;
pw_uid : int;
pw_gid : int;
pw_gecos : string;
pw_dir : string;
pw_shell : string }
type group_entry =
{ gr_name : string;
gr_passwd : string;
gr_gid : int;
gr_mem : string array }
external getlogin : unit -> string = "unix_getlogin"
external getpwnam : string -> passwd_entry = "unix_getpwnam"
external getgrnam : string -> group_entry = "unix_getgrnam"
external getpwuid : int -> passwd_entry = "unix_getpwuid"
external getgrgid : int -> group_entry = "unix_getgrgid"
type inet_addr = string
let is_inet6_addr s = String.length s = 16
external inet_addr_of_string : string -> inet_addr
= "unix_inet_addr_of_string"
external string_of_inet_addr : inet_addr -> string
= "unix_string_of_inet_addr"
let inet_addr_any = inet_addr_of_string "0.0.0.0"
let inet_addr_loopback = inet_addr_of_string "127.0.0.1"
let inet6_addr_any =
try inet_addr_of_string "::" with Failure _ -> inet_addr_any
let inet6_addr_loopback =
try inet_addr_of_string "::1" with Failure _ -> inet_addr_loopback
type socket_domain =
PF_UNIX
| PF_INET
| PF_INET6
type socket_type =
SOCK_STREAM
| SOCK_DGRAM
| SOCK_RAW
| SOCK_SEQPACKET
type sockaddr =
ADDR_UNIX of string
| ADDR_INET of inet_addr * int
let domain_of_sockaddr = function
ADDR_UNIX _ -> PF_UNIX
| ADDR_INET(a, _) -> if is_inet6_addr a then PF_INET6 else PF_INET
type shutdown_command =
SHUTDOWN_RECEIVE
| SHUTDOWN_SEND
| SHUTDOWN_ALL
type msg_flag =
MSG_OOB
| MSG_DONTROUTE
| MSG_PEEK
external socket : socket_domain -> socket_type -> int -> file_descr
= "unix_socket"
external socketpair :
socket_domain -> socket_type -> int -> file_descr * file_descr
= "unix_socketpair"
external accept : file_descr -> file_descr * sockaddr = "unix_accept"
external bind : file_descr -> sockaddr -> unit = "unix_bind"
external connect : file_descr -> sockaddr -> unit = "unix_connect"
external listen : file_descr -> int -> unit = "unix_listen"
external shutdown : file_descr -> shutdown_command -> unit = "unix_shutdown"
external getsockname : file_descr -> sockaddr = "unix_getsockname"
external getpeername : file_descr -> sockaddr = "unix_getpeername"
external unsafe_recv :
file_descr -> string -> int -> int -> msg_flag list -> int
= "unix_recv"
external unsafe_recvfrom :
file_descr -> string -> int -> int -> msg_flag list -> int * sockaddr
= "unix_recvfrom"
external unsafe_send :
file_descr -> string -> int -> int -> msg_flag list -> int
= "unix_send"
external unsafe_sendto :
file_descr -> string -> int -> int -> msg_flag list -> sockaddr -> int
= "unix_sendto" "unix_sendto_native"
let recv fd buf ofs len flags =
if ofs < 0 || len < 0 || ofs > String.length buf - len
then invalid_arg "Unix.recv"
else unsafe_recv fd buf ofs len flags
let recvfrom fd buf ofs len flags =
if ofs < 0 || len < 0 || ofs > String.length buf - len
then invalid_arg "Unix.recvfrom"
else unsafe_recvfrom fd buf ofs len flags
let send fd buf ofs len flags =
if ofs < 0 || len < 0 || ofs > String.length buf - len
then invalid_arg "Unix.send"
else unsafe_send fd buf ofs len flags
let sendto fd buf ofs len flags addr =
if ofs < 0 || len < 0 || ofs > String.length buf - len
then invalid_arg "Unix.sendto"
else unsafe_sendto fd buf ofs len flags addr
type socket_bool_option =
SO_DEBUG
| SO_BROADCAST
| SO_REUSEADDR
| SO_KEEPALIVE
| SO_DONTROUTE
| SO_OOBINLINE
| SO_ACCEPTCONN
| TCP_NODELAY
| IPV6_ONLY
type socket_int_option =
SO_SNDBUF
| SO_RCVBUF
| SO_ERROR
| SO_TYPE
| SO_RCVLOWAT
| SO_SNDLOWAT
type socket_optint_option = SO_LINGER
type socket_float_option =
SO_RCVTIMEO
| SO_SNDTIMEO
type socket_error_option = SO_ERROR
module SO: sig
type ('opt, 'v) t
val bool: (socket_bool_option, bool) t
val int: (socket_int_option, int) t
val optint: (socket_optint_option, int option) t
val float: (socket_float_option, float) t
val error: (socket_error_option, error option) t
val get: ('opt, 'v) t -> file_descr -> 'opt -> 'v
val set: ('opt, 'v) t -> file_descr -> 'opt -> 'v -> unit
end = struct
type ('opt, 'v) t = int
let bool = 0
let int = 1
let optint = 2
let float = 3
let error = 4
external get: ('opt, 'v) t -> file_descr -> 'opt -> 'v
= "unix_getsockopt"
external set: ('opt, 'v) t -> file_descr -> 'opt -> 'v -> unit
= "unix_setsockopt"
end
let getsockopt fd opt = SO.get SO.bool fd opt
let setsockopt fd opt v = SO.set SO.bool fd opt v
let getsockopt_int fd opt = SO.get SO.int fd opt
let setsockopt_int fd opt v = SO.set SO.int fd opt v
let getsockopt_optint fd opt = SO.get SO.optint fd opt
let setsockopt_optint fd opt v = SO.set SO.optint fd opt v
let getsockopt_float fd opt = SO.get SO.float fd opt
let setsockopt_float fd opt v = SO.set SO.float fd opt v
let getsockopt_error fd = SO.get SO.error fd SO_ERROR
type host_entry =
{ h_name : string;
h_aliases : string array;
h_addrtype : socket_domain;
h_addr_list : inet_addr array }
type protocol_entry =
{ p_name : string;
p_aliases : string array;
p_proto : int }
type service_entry =
{ s_name : string;
s_aliases : string array;
s_port : int;
s_proto : string }
external gethostname : unit -> string = "unix_gethostname"
external gethostbyname : string -> host_entry = "unix_gethostbyname"
external gethostbyaddr : inet_addr -> host_entry = "unix_gethostbyaddr"
external getprotobyname : string -> protocol_entry
= "unix_getprotobyname"
external getprotobynumber : int -> protocol_entry
= "unix_getprotobynumber"
external getservbyname : string -> string -> service_entry
= "unix_getservbyname"
external getservbyport : int -> string -> service_entry
= "unix_getservbyport"
type addr_info =
{ ai_family : socket_domain;
ai_socktype : socket_type;
ai_protocol : int;
ai_addr : sockaddr;
ai_canonname : string }
type getaddrinfo_option =
AI_FAMILY of socket_domain
| AI_SOCKTYPE of socket_type
| AI_PROTOCOL of int
| AI_NUMERICHOST
| AI_CANONNAME
| AI_PASSIVE
external getaddrinfo_system
: string -> string -> getaddrinfo_option list -> addr_info list
= "unix_getaddrinfo"
let getaddrinfo_emulation node service opts =
(* Parse options *)
let opt_socktype = ref None
and opt_protocol = ref 0
and opt_passive = ref false in
List.iter
(function AI_SOCKTYPE s -> opt_socktype := Some s
| AI_PROTOCOL p -> opt_protocol := p
| AI_PASSIVE -> opt_passive := true
| _ -> ())
opts;
(* Determine socket types and port numbers *)
let get_port ty kind =
if service = "" then [ty, 0] else
try
[ty, int_of_string service]
with Failure _ ->
try
[ty, (getservbyname service kind).s_port]
with Not_found -> []
in
let ports =
match !opt_socktype with
| None ->
get_port SOCK_STREAM "tcp" @ get_port SOCK_DGRAM "udp"
| Some SOCK_STREAM ->
get_port SOCK_STREAM "tcp"
| Some SOCK_DGRAM ->
get_port SOCK_DGRAM "udp"
| Some ty ->
if service = "" then [ty, 0] else [] in
(* Determine IP addresses *)
let addresses =
if node = "" then
if List.mem AI_PASSIVE opts
then [inet_addr_any, "0.0.0.0"]
else [inet_addr_loopback, "127.0.0.1"]
else
try
[inet_addr_of_string node, node]
with Failure _ ->
try
let he = gethostbyname node in
List.map
(fun a -> (a, he.h_name))
(Array.to_list he.h_addr_list)
with Not_found ->
[] in
(* Cross-product of addresses and ports *)
List.flatten
(List.map
(fun (ty, port) ->
List.map
(fun (addr, name) ->
{ ai_family = PF_INET;
ai_socktype = ty;
ai_protocol = !opt_protocol;
ai_addr = ADDR_INET(addr, port);
ai_canonname = name })
addresses)
ports)
let getaddrinfo node service opts =
try
List.rev(getaddrinfo_system node service opts)
with Invalid_argument _ ->
getaddrinfo_emulation node service opts
type name_info =
{ ni_hostname : string;
ni_service : string }
type getnameinfo_option =
NI_NOFQDN
| NI_NUMERICHOST
| NI_NAMEREQD
| NI_NUMERICSERV
| NI_DGRAM
external getnameinfo_system
: sockaddr -> getnameinfo_option list -> name_info
= "unix_getnameinfo"
let getnameinfo_emulation addr opts =
match addr with
| ADDR_UNIX f ->
{ ni_hostname = ""; ni_service = f } (* why not? *)
| ADDR_INET(a, p) ->
let hostname =
try
if List.mem NI_NUMERICHOST opts then raise Not_found;
(gethostbyaddr a).h_name
with Not_found ->
if List.mem NI_NAMEREQD opts then raise Not_found;
string_of_inet_addr a in
let service =
try
if List.mem NI_NUMERICSERV opts then raise Not_found;
let kind = if List.mem NI_DGRAM opts then "udp" else "tcp" in
(getservbyport p kind).s_name
with Not_found ->
string_of_int p in
{ ni_hostname = hostname; ni_service = service }
let getnameinfo addr opts =
try
getnameinfo_system addr opts
with Invalid_argument _ ->
getnameinfo_emulation addr opts
type terminal_io = {
mutable c_ignbrk: bool;
mutable c_brkint: bool;
mutable c_ignpar: bool;
mutable c_parmrk: bool;
mutable c_inpck: bool;
mutable c_istrip: bool;
mutable c_inlcr: bool;
mutable c_igncr: bool;
mutable c_icrnl: bool;
mutable c_ixon: bool;
mutable c_ixoff: bool;
mutable c_opost: bool;
mutable c_obaud: int;
mutable c_ibaud: int;
mutable c_csize: int;
mutable c_cstopb: int;
mutable c_cread: bool;
mutable c_parenb: bool;
mutable c_parodd: bool;
mutable c_hupcl: bool;
mutable c_clocal: bool;
mutable c_isig: bool;
mutable c_icanon: bool;
mutable c_noflsh: bool;
mutable c_echo: bool;
mutable c_echoe: bool;
mutable c_echok: bool;
mutable c_echonl: bool;
mutable c_vintr: char;
mutable c_vquit: char;
mutable c_verase: char;
mutable c_vkill: char;
mutable c_veof: char;
mutable c_veol: char;
mutable c_vmin: int;
mutable c_vtime: int;
mutable c_vstart: char;
mutable c_vstop: char
}
external tcgetattr: file_descr -> terminal_io = "unix_tcgetattr"
type setattr_when = TCSANOW | TCSADRAIN | TCSAFLUSH
external tcsetattr: file_descr -> setattr_when -> terminal_io -> unit
= "unix_tcsetattr"
external tcsendbreak: file_descr -> int -> unit = "unix_tcsendbreak"
external tcdrain: file_descr -> unit = "unix_tcdrain"
type flush_queue = TCIFLUSH | TCOFLUSH | TCIOFLUSH
external tcflush: file_descr -> flush_queue -> unit = "unix_tcflush"
type flow_action = TCOOFF | TCOON | TCIOFF | TCION
external tcflow: file_descr -> flow_action -> unit = "unix_tcflow"
external setsid : unit -> int = "unix_setsid"
(* High-level process management (system, popen) *)
let rec waitpid_non_intr pid =
try waitpid [] pid
with Unix_error (EINTR, _, _) -> waitpid_non_intr pid
let system cmd =
match fork() with
0 -> begin try
execv "/bin/sh" [| "/bin/sh"; "-c"; cmd |]
with _ ->
exit 127
end
| id -> snd(waitpid_non_intr id)
let rec safe_dup fd =
let new_fd = dup fd in
if new_fd >= 3 then
new_fd
else begin
let res = safe_dup fd in
close new_fd;
res
end
let safe_close fd =
try close fd with Unix_error(_,_,_) -> ()
let perform_redirections new_stdin new_stdout new_stderr =
let newnewstdin = safe_dup new_stdin in
let newnewstdout = safe_dup new_stdout in
let newnewstderr = safe_dup new_stderr in
safe_close new_stdin;
safe_close new_stdout;
safe_close new_stderr;
dup2 newnewstdin stdin; close newnewstdin;
dup2 newnewstdout stdout; close newnewstdout;
dup2 newnewstderr stderr; close newnewstderr
let create_process cmd args new_stdin new_stdout new_stderr =
match fork() with
0 ->
begin try
perform_redirections new_stdin new_stdout new_stderr;
execvp cmd args
with _ ->
exit 127
end
| id -> id
let create_process_env cmd args env new_stdin new_stdout new_stderr =
match fork() with
0 ->
begin try
perform_redirections new_stdin new_stdout new_stderr;
execvpe cmd args env
with _ ->
exit 127
end
| id -> id
type popen_process =
Process of in_channel * out_channel
| Process_in of in_channel
| Process_out of out_channel
| Process_full of in_channel * out_channel * in_channel
let popen_processes = (Hashtbl.create 7 : (popen_process, int) Hashtbl.t)
let open_proc cmd proc input output toclose =
let cloexec = List.for_all try_set_close_on_exec toclose in
match fork() with
0 -> if input <> stdin then begin dup2 input stdin; close input end;
if output <> stdout then begin dup2 output stdout; close output end;
if not cloexec then List.iter close toclose;
begin try execv "/bin/sh" [| "/bin/sh"; "-c"; cmd |]
with _ -> exit 127
end
| id -> Hashtbl.add popen_processes proc id
let open_process_in cmd =
let (in_read, in_write) = pipe() in
let inchan = in_channel_of_descr in_read in
begin
try
open_proc cmd (Process_in inchan) stdin in_write [in_read];
with e ->
close_in inchan;
close in_write;
raise e
end;
close in_write;
inchan
let open_process_out cmd =
let (out_read, out_write) = pipe() in
let outchan = out_channel_of_descr out_write in
begin
try
open_proc cmd (Process_out outchan) out_read stdout [out_write];
with e ->
close_out outchan;
close out_read;
raise e
end;
close out_read;
outchan
let open_process cmd =
let (in_read, in_write) = pipe() in
let fds_to_close = ref [in_read;in_write] in
try
let (out_read, out_write) = pipe() in
fds_to_close := [in_read;in_write;out_read;out_write];
let inchan = in_channel_of_descr in_read in
let outchan = out_channel_of_descr out_write in
open_proc cmd (Process(inchan, outchan)) out_read in_write
[in_read; out_write];
close out_read;
close in_write;
(inchan, outchan)
with e ->
List.iter close !fds_to_close;
raise e
let open_proc_full cmd env proc input output error toclose =
let cloexec = List.for_all try_set_close_on_exec toclose in
match fork() with
0 -> dup2 input stdin; close input;
dup2 output stdout; close output;
dup2 error stderr; close error;
if not cloexec then List.iter close toclose;
begin try execve "/bin/sh" [| "/bin/sh"; "-c"; cmd |] env
with _ -> exit 127
end
| id -> Hashtbl.add popen_processes proc id
let open_process_full cmd env =
let (in_read, in_write) = pipe() in
let fds_to_close = ref [in_read;in_write] in
try
let (out_read, out_write) = pipe() in
fds_to_close := out_read::out_write:: !fds_to_close;
let (err_read, err_write) = pipe() in
fds_to_close := err_read::err_write:: !fds_to_close;
let inchan = in_channel_of_descr in_read in
let outchan = out_channel_of_descr out_write in
let errchan = in_channel_of_descr err_read in
open_proc_full cmd env (Process_full(inchan, outchan, errchan))
out_read in_write err_write [in_read; out_write; err_read];
close out_read;
close in_write;
close err_write;
(inchan, outchan, errchan)
with e ->
List.iter close !fds_to_close;
raise e
let find_proc_id fun_name proc =
try
let pid = Hashtbl.find popen_processes proc in
Hashtbl.remove popen_processes proc;
pid
with Not_found ->
raise(Unix_error(EBADF, fun_name, ""))
let close_process_in inchan =
let pid = find_proc_id "close_process_in" (Process_in inchan) in
close_in inchan;
snd(waitpid_non_intr pid)
let close_process_out outchan =
let pid = find_proc_id "close_process_out" (Process_out outchan) in
close_out outchan;
snd(waitpid_non_intr pid)
let close_process (inchan, outchan) =
let pid = find_proc_id "close_process" (Process(inchan, outchan)) in
close_in inchan;
begin try close_out outchan with Sys_error _ -> () end;
snd(waitpid_non_intr pid)
let close_process_full (inchan, outchan, errchan) =
let pid =
find_proc_id "close_process_full"
(Process_full(inchan, outchan, errchan)) in
close_in inchan;
begin try close_out outchan with Sys_error _ -> () end;
close_in errchan;
snd(waitpid_non_intr pid)
(* High-level network functions *)
let open_connection sockaddr =
let sock =
socket (domain_of_sockaddr sockaddr) SOCK_STREAM 0 in
try
connect sock sockaddr;
ignore(try_set_close_on_exec sock);
(in_channel_of_descr sock, out_channel_of_descr sock)
with exn ->
close sock; raise exn
let shutdown_connection inchan =
shutdown (descr_of_in_channel inchan) SHUTDOWN_SEND
let rec accept_non_intr s =
try accept s
with Unix_error (EINTR, _, _) -> accept_non_intr s
let establish_server server_fun sockaddr =
let sock =
socket (domain_of_sockaddr sockaddr) SOCK_STREAM 0 in
setsockopt sock SO_REUSEADDR true;
bind sock sockaddr;
listen sock 5;
while true do
let (s, caller) = accept_non_intr sock in
(* The "double fork" trick, the process which calls server_fun will not
leave a zombie process *)
match fork() with
0 -> if fork() <> 0 then exit 0; (* The son exits, the grandson works *)
close sock;
ignore(try_set_close_on_exec s);
let inchan = in_channel_of_descr s in
let outchan = out_channel_of_descr s in
server_fun inchan outchan;
(* Do not close inchan nor outchan, as the server_fun could
have done it already, and we are about to exit anyway
(PR#3794) *)
exit 0
| id -> close s; ignore(waitpid_non_intr id) (* Reclaim the son *)
done