ocaml/otherlibs/unix/unix.mli

883 lines
40 KiB
OCaml

(***********************************************************************)
(* *)
(* Caml Special Light *)
(* *)
(* Xavier Leroy, projet Cristal, INRIA Rocquencourt *)
(* *)
(* Copyright 1995 Institut National de Recherche en Informatique et *)
(* Automatique. Distributed only by permission. *)
(* *)
(***********************************************************************)
(* $Id$ *)
(* Module [Unix]: interface to the Unix system *)
(*** Error report *)
type error =
(* Errors defined in the POSIX standard *)
E2BIG (* Argument list too long *)
| EACCESS (* Permission denied *)
| EAGAIN (* Resource temporarily unavailable; try again *)
| EBADF (* Bad file descriptor *)
| EBUSY (* Resource unavailable *)
| ECHILD (* No child process *)
| EDEADLK (* Resource deadlock would occur *)
| EDOM (* Domain error for math functions, etc. *)
| EEXIST (* File exists *)
| EFAULT (* Bad address *)
| EFBIG (* File too large *)
| EINTR (* Function interrupted by signal *)
| EINVAL (* Invalid argument *)
| EIO (* Hardware I/O error *)
| EISDIR (* Is a directory *)
| EMFILE (* Too many open files by the process *)
| EMLINK (* Too many links *)
| ENAMETOOLONG (* Filename too long *)
| ENFILE (* Too many open files in the system *)
| ENODEV (* No such device *)
| ENOENT (* No such file or directory *)
| ENOEXEC (* Not an executable file *)
| ENOLCK (* No locks available *)
| ENOMEM (* Not enough memory *)
| ENOSPC (* No space left on device *)
| ENOSYS (* Function not supported *)
| ENOTDIR (* Not a directory *)
| ENOTEMPTY (* Directory not empty *)
| ENOTTY (* Inappropriate I/O control operation *)
| ENXIO (* No such device or address *)
| EPERM (* Operation not permitted *)
| EPIPE (* Broken pipe *)
| ERANGE (* Result too large *)
| EROFS (* Read-only file system *)
| ESPIPE (* Invalid seek e.g. on a pipe *)
| ESRCH (* No such process *)
| EXDEV (* Invalid link *)
(* Additional errors, mostly BSD *)
| EWOULDBLOCK (* Operation would block *)
| EINPROGRESS (* Operation now in progress *)
| EALREADY (* Operation already in progress *)
| ENOTSOCK (* Socket operation on non-socket *)
| EDESTADDRREQ (* Destination address required *)
| EMSGSIZE (* Message too long *)
| EPROTOTYPE (* Protocol wrong type for socket *)
| ENOPROTOOPT (* Protocol not available *)
| EPROTONOSUPPORT (* Protocol not supported *)
| ESOCKTNOSUPPORT (* Socket type not supported *)
| EOPNOTSUPP (* Operation not supported on socket *)
| EPFNOSUPPORT (* Protocol family not supported *)
| EAFNOSUPPORT (* Address family not supported by protocol family *)
| EADDRINUSE (* Address already in use *)
| EADDRNOTAVAIL (* Can't assign requested address *)
| ENETDOWN (* Network is down *)
| ENETUNREACH (* Network is unreachable *)
| ENETRESET (* Network dropped connection on reset *)
| ECONNABORTED (* Software caused connection abort *)
| ECONNRESET (* Connection reset by peer *)
| ENOBUFS (* No buffer space available *)
| EISCONN (* Socket is already connected *)
| ENOTCONN (* Socket is not connected *)
| ESHUTDOWN (* Can't send after socket shutdown *)
| ETOOMANYREFS (* Too many references: can't splice *)
| ETIMEDOUT (* Connection timed out *)
| ECONNREFUSED (* Connection refused *)
| EHOSTDOWN (* Host is down *)
| EHOSTUNREACH (* No route to host *)
| ELOOP (* Too many levels of symbolic links *)
(* All other errors are mapped to EUNKNOWNERR *)
| EUNKNOWNERR (* Unknown error *)
(* The type of error codes. *)
exception Unix_error of error * string * string
(* Raised by the system calls below when an error is encountered.
The first component is the error code; the second component
is the function name; the third component is the string parameter
to the function, if it has one, or the empty string otherwise. *)
external error_message : error -> string = "unix_error_message"
(* Return a string describing the given error code. *)
val handle_unix_error : ('a -> 'b) -> 'a -> 'b
(* [handle_unix_error f x] applies [f] to [x] and returns the result.
If the exception [Unix_error] is raised, it prints a message
describing the error and exits with code 2. *)
(*** Interface with the parent process *)
external environment : unit -> string array = "unix_environment"
(* Return the process environment, as an array of strings
with the format ``variable=value''. See also [sys__getenv]. *)
(*** Process handling *)
type process_status =
WEXITED of int
| WSIGNALED of int
| WSTOPPED of int
(* The termination status of a process. [WEXITED] means that the
process terminated normally by [exit]; the argument is the return
code. [WSIGNALED] means that the process was killed by a signal;
the argument is the signal number. [WSTOPPED] means
that the process was stopped by a signal; the argument is the
signal number. *)
type wait_flag =
WNOHANG
| WUNTRACED
(* Flags for [waitopt] and [waitpid].
[WNOHANG] means do not block if no child has
died yet, but immediately return with a pid equal to 0.
[WUNTRACED] means report also the children that receive stop
signals. *)
external execv : string -> string array -> unit = "unix_execv"
(* [execv prog args] execute the program in file [prog], with
the arguments [args], and the current process environment. *)
external execve : string -> string array -> string array -> unit = "unix_execve"
(* Same as [execv], except that the third argument provides the
environment to the program executed. *)
external execvp : string -> string array -> unit = "unix_execvp"
(* Same as [execv], except that the program is searched in the path. *)
external fork : unit -> int = "unix_fork"
(* Fork a new process. The returned integer is 0 for the child
process, the pid of the child process for the parent process. *)
external wait : unit -> int * process_status = "unix_wait"
(* Wait until one of the children processes die, and return its pid
and termination status. *)
external waitpid : wait_flag list -> int -> int * process_status
= "unix_waitpid"
(* Same as [wait], but waits for the process whose pid is given.
A pid of [-1] means wait for any child.
A pid of [0] means wait for any child in the same process group
as the current process.
Negative pid arguments represent process groups.
The list of options indicates whether [waitpid] should return
immediately without waiting, or also report stopped children. *)
val system : string -> process_status
(* Execute the given command, wait until it terminates, and return
its termination status. The string is interpreted by the shell
[/bin/sh] and therefore can contain redirections, quotes, variables,
etc. The result [WEXITED 127] indicates that the shell couldn't
be executed. *)
external getpid : unit -> int = "unix_getpid"
(* Return the pid of the process. *)
external getppid : unit -> int = "unix_getppid"
(* Return the pid of the parent process. *)
external nice : int -> int = "unix_nice"
(* Change the process priority. The integer argument is added to the
``nice'' value. (Higher values of the ``nice'' value mean
lower priorities.) Return the new nice value. *)
(*** Basic file input/output *)
type file_descr
(* The abstract type of file descriptors. *)
val stdin : file_descr
val stdout : file_descr
val stderr : file_descr
(* File descriptors for standard input, standard output and
standard error. *)
type open_flag =
O_RDONLY (* Open for reading *)
| O_WRONLY (* Open for writing *)
| O_RDWR (* Open for reading and writing *)
| O_NONBLOCK (* Open in non-blocking mode *)
| O_APPEND (* Open for append *)
| O_CREAT (* Create if nonexistent *)
| O_TRUNC (* Truncate to 0 length if existing *)
| O_EXCL (* Fail if existing *)
(* The flags to [open]. *)
type file_perm = int
(* The type of file access rights. *)
external openfile : string -> open_flag list -> file_perm -> file_descr
= "unix_open"
(* Open the named file with the given flags. Third argument is
the permissions to give to the file if it is created. Return
a file descriptor on the named file. *)
external close : file_descr -> unit = "unix_close"
(* Close a file descriptor. *)
val read : file_descr -> string -> int -> int -> int
(* [read fd buff ofs len] reads [len] characters from descriptor
[fd], storing them in string [buff], starting at position [ofs]
in string [buff]. Return the number of characters actually read. *)
val write : file_descr -> string -> int -> int -> int
(* [write fd buff ofs len] writes [len] characters to descriptor
[fd], taking them from string [buff], starting at position [ofs]
in string [buff]. Return the number of characters actually
written. *)
(*** Interfacing with the standard input/output library (module io). *)
external in_channel_of_descr : file_descr -> in_channel = "open_descriptor"
(* Create an input channel reading from the given descriptor. *)
external out_channel_of_descr : file_descr -> out_channel = "open_descriptor"
(* Create an output channel writing on the given descriptor. *)
external descr_of_in_channel : in_channel -> file_descr = "channel_descriptor"
(* Return the descriptor corresponding to an input channel. *)
external descr_of_out_channel : out_channel -> file_descr = "channel_descriptor"
(* Return the descriptor corresponding to an output channel. *)
(*** Seeking and truncating *)
type seek_command =
SEEK_SET
| SEEK_CUR
| SEEK_END
(* Positioning modes for [lseek]. [SEEK_SET] indicates positions
relative to the beginning of the file, [SEEK_CUR] relative to
the current position, [SEEK_END] relative to the end of the
file. *)
external lseek : file_descr -> int -> seek_command -> int = "unix_lseek"
(* Set the current position for a file descriptor *)
external truncate : string -> int -> unit = "unix_truncate"
(* Truncates the named file to the given size. *)
external ftruncate : file_descr -> int -> unit = "unix_ftruncate"
(* Truncates the file corresponding to the given descriptor
to the given size. *)
(*** File statistics *)
type file_kind =
S_REG (* Regular file *)
| S_DIR (* Directory *)
| S_CHR (* Character device *)
| S_BLK (* Block device *)
| S_LNK (* Symbolic link *)
| S_FIFO (* Named pipe *)
| S_SOCK (* Socket *)
type stats =
{ st_dev : int; (* Device number *)
st_ino : int; (* Inode number *)
st_kind : file_kind; (* Kind of the file *)
st_perm : file_perm; (* Access rights *)
st_nlink : int; (* Number of links *)
st_uid : int; (* User id of the owner *)
st_gid : int; (* Group id of the owner *)
st_rdev : int; (* Device minor number *)
st_size : int; (* Size in bytes *)
st_atime : int; (* Last access time *)
st_mtime : int; (* Last modification time *)
st_ctime : int } (* Last status change time *)
(* The informations returned by the [stat] calls. *)
external stat : string -> stats = "unix_stat"
(* Return the information for the named file. *)
external lstat : string -> stats = "unix_lstat"
(* Same as [stat], but in case the file is a symbolic link,
return the information for the link itself. *)
external fstat : file_descr -> stats = "unix_fstat"
(* Return the information for the file associated with the given
descriptor. *)
(*** Operations on file names *)
external unlink : string -> unit = "unix_unlink"
(* Removes the named file *)
external rename : string -> string -> unit = "unix_rename"
(* [rename old new] changes the name of a file from [old] to [new]. *)
external link : string -> string -> unit = "unix_link"
(* [link source dest] creates a hard link named [dest] to the file
named [new]. *)
(*** File permissions and ownership *)
type access_permission =
R_OK (* Read permission *)
| W_OK (* Write permission *)
| X_OK (* Execution permission *)
| F_OK (* File exists *)
(* Flags for the [access] call. *)
external chmod : string -> file_perm -> unit = "unix_chmod"
(* Change the permissions of the named file. *)
external fchmod : file_descr -> file_perm -> unit = "unix_fchmod"
(* Change the permissions of an opened file. *)
external chown : string -> int -> int -> unit = "unix_chown"
(* Change the owner uid and owner gid of the named file. *)
external fchown : file_descr -> int -> int -> unit = "unix_fchown"
(* Change the owner uid and owner gid of an opened file. *)
external umask : int -> int = "unix_umask"
(* Set the process creation mask, and return the previous mask. *)
external access : string -> access_permission list -> unit = "unix_access"
(* Check that the process has the given permissions over the named
file. Raise [Unix_error] otherwise. *)
(*** Operations on file descriptors *)
external dup : file_descr -> file_descr = "unix_dup"
(* Duplicate a descriptor. *)
external dup2 : file_descr -> file_descr -> unit = "unix_dup2"
(* [dup2 fd1 fd2] duplicates [fd1] to [fd2], closing [fd2] if already
opened. *)
external set_nonblock : file_descr -> unit = "unix_set_nonblock"
external clear_nonblock : file_descr -> unit = "unix_clear_nonblock"
(* Set or clear the ``non-blocking'' flag on the given descriptor.
When the non-blocking flag is set, reading on a descriptor
on which there is temporarily no data available raises the
[EAGAIN] or [EWOULDBLOCK] error instead of blocking;
writing on a descriptor on which there is temporarily no room
for writing also raises [EAGAIN] or [EWOULDBLOCK]. *)
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"
(* Set or clear the ``close-on-exec'' flag on the given descriptor.
A descriptor with the close-on-exec flag is automatically
closed when the current process starts another program with
one of the [exec] functions. *)
(*** Directories *)
external mkdir : string -> file_perm -> unit = "unix_mkdir"
(* Create a directory with the given permissions. *)
external rmdir : string -> unit = "unix_rmdir"
(* Remove an empty directory. *)
external chdir : string -> unit = "unix_chdir"
(* Change the process working directory. *)
external getcwd : unit -> string = "unix_getcwd"
(* Return the name of the current working directory. *)
type dir_handle
(* The type of descriptors over opened directories. *)
external opendir : string -> dir_handle = "unix_opendir"
(* Open a descriptor on a directory *)
external readdir : dir_handle -> string = "unix_readdir"
(* Return the next entry in a directory.
Raise [End_of_file] when the end of the directory has been
reached. *)
external rewinddir : dir_handle -> unit = "unix_rewinddir"
(* Reposition the descriptor to the beginning of the directory *)
external closedir : dir_handle -> unit = "unix_closedir"
(* Close a directory descriptor. *)
(*** Pipes and redirections *)
external pipe : unit -> file_descr * file_descr = "unix_pipe"
(* Create a pipe. The first component of the result is opened
for reading, that's the exit to the pipe. The second component is
opened for writing, that's the entrace to the pipe. *)
val open_process_in: string -> in_channel
val open_process_out: string -> out_channel
val open_process: string -> in_channel * out_channel
(* High-level pipe and process management. These functions
run the given command in parallel with the program,
and return channels connected to the standard input and/or
the standard output of the command. The command is interpreted
by the shell [/bin/sh] (cf. [system]). Warning: writes on channels
are buffered, hence be careful to call [flush] at the right times
to ensure correct synchronization. *)
val close_process_in: in_channel -> process_status
val close_process_out: out_channel -> process_status
val close_process: in_channel * out_channel -> process_status
(* Close channels opened by [open_process_in], [open_process_out]
and [open_process], respectively, wait for the associated
command to terminate, and return its termination status. *)
(*** Symbolic links *)
external symlink : string -> string -> unit = "unix_symlink"
(* [symlink source dest] creates the file [dest] as a symbolic link
to the file [source]. *)
external readlink : string -> string = "unix_readlink"
(* Read the contents of a link. *)
(*** Named pipes *)
external mkfifo : string -> file_perm -> unit = "unix_mkfifo"
(* Create a named pipe with the given permissions. *)
(*** Special files *)
external ioctl_int : file_descr -> int -> int -> int = "unix_ioctl_int"
(* Interface to [ioctl] in the case where the argument is an
integer. The first integer argument is the command code;
the second is the integer parameter. *)
external ioctl_ptr : file_descr -> int -> string -> int = "unix_ioctl_ptr"
(* Interface to [ioctl] in the case where the argument is a pointer.
The integer argument is the command code. A pointer to the string
argument is passed as argument to the command. *)
(*** Polling *)
external select :
file_descr list -> file_descr list -> file_descr list -> float ->
file_descr list * file_descr list * file_descr list = "unix_select"
(* Wait until some input/output operations become possible on
some channels. The three list arguments are, respectively, a set
of descriptors to check for reading (first argument), for writing
(second argument), or for exceptional conditions (third argument).
The fourth argument is the maximal timeout, in seconds; a
negative fourth argument means no timeout (unbounded wait).
The result is composed of three sets of descriptors: those ready
for reading (first component), ready for writing (second component),
and over which an exceptional condition is pending (third
component). *)
(*** Locking *)
type lock_command =
F_ULOCK (* Unlock a region *)
| F_LOCK (* Lock a region, and block if already locked *)
| F_TLOCK (* Lock a region, or fail if already locked *)
| F_TEST (* Test a region for other process' locks *)
(* Commands for [lockf]. *)
external lockf : file_descr -> lock_command -> int -> unit = "unix_lockf"
(* [lockf fd cmd size] puts a lock on a region of the file opened
as [fd]. The region starts at the current read/write position for
[fd] (as set by [lseek]), and extends [size] bytes forward if
[size] is positive, [size] bytes backwards if [size] is negative,
or to the end of the file if [size] is zero. *)
(*** Signals *)
external kill : int -> int -> unit = "unix_kill"
(* [kill pid sig] sends signal number [sig] to the process
with id [pid]. *)
external pause : unit -> unit = "unix_pause"
(* Wait until a non-ignored signal is delivered. *)
(*** Time functions *)
type process_times =
{ tms_utime : float; (* User time for the process *)
tms_stime : float; (* System time for the process *)
tms_cutime : float; (* User time for the children processes *)
tms_cstime : float } (* System time for the children processes *)
(* The execution times (CPU times) of a process. *)
type tm =
{ tm_sec : int; (* Seconds 0..59 *)
tm_min : int; (* Minutes 0..59 *)
tm_hour : int; (* Hours 0..23 *)
tm_mday : int; (* Day of month 1..31 *)
tm_mon : int; (* Month of year 0..11 *)
tm_year : int; (* Year - 1900 *)
tm_wday : int; (* Day of week (Sunday is 0) *)
tm_yday : int; (* Day of year 0..365 *)
tm_isdst : bool } (* Daylight time savings in effect *)
(* The type representing wallclock time and calendar date. *)
external time : unit -> int = "unix_time"
(* Return the current time since 00:00:00 GMT, Jan. 1, 1970,
in seconds. *)
external gettimeofday : unit -> float = "unix_gettimeofday"
(* Same as [time], but with resolution better than 1 second. *)
external gmtime : int -> tm = "unix_gmtime"
(* Convert a time in seconds, as returned by [time], into a date and
a time. Assumes Greenwich meridian time zone. *)
external localtime : int -> tm = "unix_localtime"
(* Convert a time in seconds, as returned by [time], into a date and
a time. Assumes the local time zone. *)
external alarm : int -> int = "unix_alarm"
(* Schedule a [SIGALRM] signals after the given number of seconds. *)
external sleep : int -> unit = "unix_sleep"
(* Stop execution for the given number of seconds. *)
external times : unit -> process_times =
"unix_times_bytecode" "unix_times_native"
(* Return the execution times of the process. *)
external utimes : string -> int -> int -> unit = "unix_utimes"
(* Set the last access time (second arg) and last modification time
(third arg) for a file. Times are expressed in seconds from
00:00:00 GMT, Jan. 1, 1970. *)
type interval_timer =
ITIMER_REAL
| ITIMER_VIRTUAL
| ITIMER_PROF
(* The three kinds of interval timers.
[ITIMER_REAL] decrements in real time, and sends the signal
[SIGALRM] when expired.
[ITIMER_VIRTUAL] decrements in process virtual time, and sends
[SIGVTALRM] when expired.
[ITIMER_PROF] (for profiling) decrements both when the process
is running and when the system is running on behalf of the
process; it sends [SIGPROF] when expired. *)
type interval_timer_status =
{ it_interval: float; (* Period *)
it_value: float } (* Current value of the timer *)
(* The type describing the status of an interval timer *)
external getitimer: interval_timer -> interval_timer_status = "unix_getitimer"
(* Return the current status of the given interval timer. *)
external setitimer:
interval_timer -> interval_timer_status -> interval_timer_status
= "unix_setitimer"
(* [setitimer t s] set the interval timer [t] and return its previous
status. The [s] argument is interpreted as follows:
[s.it_value], if nonzero, is the time to the next timer expiration;
[s.it_interval], if nonzero, specifies a value to
be used in reloading it_value when the timer expires.
Setting [s.it_value] to zero disable the timer.
Setting [s.it_interval] to zero causes the timer to be disabled
after its next expiration. *)
(*** User id, group id *)
external getuid : unit -> int = "unix_getuid"
(* Return the user id of the user executing the process. *)
external geteuid : unit -> int = "unix_geteuid"
(* Return the effective user id under which the process runs. *)
external setuid : int -> unit = "unix_setuid"
(* Set the real user id and effective user id for the process. *)
external getgid : unit -> int = "unix_getgid"
(* Return the group id of the user executing the process. *)
external getegid : unit -> int = "unix_getegid"
(* Return the effective group id under which the process runs. *)
external setgid : int -> unit = "unix_setgid"
(* Set the real group id and effective group id for the process. *)
external getgroups : unit -> int array = "unix_getgroups"
(* Return the list of groups to which the user executing the process
belongs. *)
type passwd_entry =
{ pw_name : string;
pw_passwd : string;
pw_uid : int;
pw_gid : int;
pw_gecos : string;
pw_dir : string;
pw_shell : string }
(* Structure of entries in the [passwd] database. *)
type group_entry =
{ gr_name : string;
gr_passwd : string;
gr_gid : int;
gr_mem : string array }
(* Structure of entries in the [groups] database. *)
external getlogin : unit -> string = "unix_getlogin"
(* Return the login name of the user executing the process. *)
external getpwnam : string -> passwd_entry = "unix_getpwnam"
(* Find an entry in [passwd] with the given name, or raise
[Not_found]. *)
external getgrnam : string -> group_entry = "unix_getgrnam"
(* Find an entry in [group] with the given name, or raise
[Not_found]. *)
external getpwuid : int -> passwd_entry = "unix_getpwuid"
(* Find an entry in [passwd] with the given user id, or raise
[Not_found]. *)
external getgrgid : int -> group_entry = "unix_getgrgid"
(* Find an entry in [group] with the given group id, or raise
[Not_found]. *)
(*** Internet addresses *)
type inet_addr
(* The abstract type of Internet addresses. *)
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"
(* Conversions between string with the format [XXX.YYY.ZZZ.TTT]
and Internet addresses. [inet_addr_of_string] raises [Failure]
when given a string that does not match this format. *)
val inet_addr_any : inet_addr
(* A special Internet address, for use only with [bind], representing
all the Internet addresses that the host machine possesses. *)
(*** Sockets *)
type socket_domain =
PF_UNIX (* Unix domain *)
| PF_INET (* Internet domain *)
(* The type of socket domains. *)
type socket_type =
SOCK_STREAM (* Stream socket *)
| SOCK_DGRAM (* Datagram socket *)
| SOCK_RAW (* Raw socket *)
| SOCK_SEQPACKET (* Sequenced packets socket *)
(* The type of socket kinds, specifying the semantics of
communications. *)
type sockaddr =
ADDR_UNIX of string
| ADDR_INET of inet_addr * int
(* The type of socket addresses. [ADDR_UNIX name] is a socket
address in the Unix domain; [name] is a file name in the file
system. [ADDR_INET(addr,port)] is a socket address in the Internet
domain; [addr] is the Internet address of the machine, and
[port] is the port number. *)
external socket : socket_domain -> socket_type -> int -> file_descr
= "unix_socket"
(* Create a new socket in the given domain, and with the
given kind. The third argument is the protocol type; 0 selects
the default protocol for that kind of sockets. *)
external socketpair :
socket_domain -> socket_type -> int -> file_descr * file_descr
= "unix_socketpair"
(* Create a pair of unnamed sockets, connected together. *)
external accept : file_descr -> file_descr * sockaddr = "unix_accept"
(* Accept connections on the given socket. The returned descriptor
is a socket connected to the client; the returned address is
the address of the connecting client. *)
external bind : file_descr -> sockaddr -> unit = "unix_bind"
(* Bind a socket to an address. *)
external connect : file_descr -> sockaddr -> unit = "unix_connect"
(* Connect a socket to an address. *)
external listen : file_descr -> int -> unit = "unix_listen"
(* Set up a socket for receiving connection requests. The integer
argument is the maximal number of pending requests. *)
type shutdown_command =
SHUTDOWN_RECEIVE (* Close for receiving *)
| SHUTDOWN_SEND (* Close for sending *)
| SHUTDOWN_ALL (* Close both *)
(* The type of commands for [shutdown]. *)
external shutdown : file_descr -> shutdown_command -> unit = "unix_shutdown"
(* Shutdown a socket connection. [SHUTDOWN_SEND] as second argument
causes reads on the other end of the connection to return
an end-of-file condition.
[SHUTDOWN_RECEIVE] causes writes on the other end of the connection
to return a closed pipe condition ([SIGPIPE] signal). *)
external getsockname : file_descr -> sockaddr = "unix_getsockname"
(* Return the address of the given socket. *)
external getpeername : file_descr -> sockaddr = "unix_getpeername"
(* Return the address of the host connected to the given socket. *)
type msg_flag =
MSG_OOB
| MSG_DONTROUTE
| MSG_PEEK
(* The flags for [recv], [recvfrom], [send] and [sendto]. *)
val recv : file_descr -> string -> int -> int -> msg_flag list -> int
val recvfrom :
file_descr -> string -> int -> int -> msg_flag list -> int * sockaddr
(* Receive data from an unconnected socket. *)
val send : file_descr -> string -> int -> int -> msg_flag list -> int
val sendto :
file_descr -> string -> int -> int -> msg_flag list -> sockaddr -> int
(* Send data over an unconnected socket. *)
type socket_option =
SO_DEBUG (* Record debugging information *)
| SO_BROADCAST (* Permit sending of broadcast messages *)
| SO_REUSEADDR (* Allow reuse of local addresses for bind *)
| SO_KEEPALIVE (* Keep connection active *)
| SO_DONTROUTE (* Bypass the standard routing algorithms *)
| SO_OOBINLINE (* Leave out-of-band data in line *)
(* The socket options settable with [setsockopt]. *)
external getsockopt : file_descr -> socket_option -> bool = "unix_getsockopt"
(* Return the current status of an option in the given socket. *)
external setsockopt : file_descr -> socket_option -> bool -> unit
= "unix_setsockopt"
(* Set or clear an option in the given socket. *)
(*** High-level network connection functions *)
val open_connection : sockaddr -> in_channel * out_channel
(* Connect to a server at the given address.
Return a pair of buffered channels connected to the server.
Remember to call [flush] on the output channel at the right times
to ensure correct synchronization. *)
val shutdown_connection : in_channel -> unit
(* ``Shut down'' a connection established with [open_connection];
that is, transmit an end-of-file condition to the server reading
on the other side of the connection. *)
val establish_server : (in_channel -> out_channel -> 'a) -> sockaddr -> unit
(* Establish a server on the given address.
The function given as first argument is called for each connection
with two buffered channels connected to the client. A new process
is created for each connection. The function [establish_server]
never returns normally. *)
(*** Host and protocol databases *)
type host_entry =
{ h_name : string;
h_aliases : string array;
h_addrtype : socket_domain;
h_addr_list : inet_addr array }
(* Structure of entries in the [hosts] database. *)
type protocol_entry =
{ p_name : string;
p_aliases : string array;
p_proto : int }
(* Structure of entries in the [protocols] database. *)
type service_entry =
{ s_name : string;
s_aliases : string array;
s_port : int;
s_proto : string }
(* Structure of entries in the [services] database. *)
external gethostname : unit -> string = "unix_gethostname"
(* Return the name of the local host. *)
external gethostbyname : string -> host_entry = "unix_gethostbyname"
(* Find an entry in [hosts] with the given name, or raise
[Not_found]. *)
external gethostbyaddr : inet_addr -> host_entry = "unix_gethostbyaddr"
(* Find an entry in [hosts] with the given address, or raise
[Not_found]. *)
external getprotobyname : string -> protocol_entry
= "unix_getprotobyname"
(* Find an entry in [protocols] with the given name, or raise
[Not_found]. *)
external getprotobynumber : int -> protocol_entry
= "unix_getprotobynumber"
(* Find an entry in [protocols] with the given protocol number,
or raise [Not_found]. *)
external getservbyname : string -> string -> service_entry
= "unix_getservbyname"
(* Find an entry in [services] with the given name, or raise
[Not_found]. *)
external getservbyport : int -> string -> service_entry
= "unix_getservbyport"
(* Find an entry in [services] with the given service number,
or raise [Not_found]. *)
(*** Terminal interface *)
(* The following functions implement the POSIX standard terminal
interface. They provide control over asynchronous communication ports
and pseudo-terminals. Refer to the [termios] man page for a
complete description. *)
type terminal_io = {
(* Input modes: *)
mutable c_ignbrk: bool; (* Ignore the break condition. *)
mutable c_brkint: bool; (* Signal interrupt on break condition. *)
mutable c_ignpar: bool; (* Ignore characters with parity errors. *)
mutable c_parmrk: bool; (* Mark parity errors. *)
mutable c_inpck: bool; (* Enable parity check on input. *)
mutable c_istrip: bool; (* Strip 8th bit on input characters. *)
mutable c_inlcr: bool; (* Map NL to CR on input. *)
mutable c_igncr: bool; (* Ignore CR on input. *)
mutable c_icrnl: bool; (* Map CR to NL on input. *)
mutable c_ixon: bool; (* Recognize XON/XOFF characters on input. *)
mutable c_ixoff: bool; (* Emit XON/XOFF chars to control input flow. *)
(* Output modes: *)
mutable c_opost: bool; (* Enable output processing. *)
(* Control modes: *)
mutable c_obaud: int; (* Output baud rate (0 means close connection).*)
mutable c_ibaud: int; (* Input baud rate. *)
mutable c_csize: int; (* Number of bits per character (5-8). *)
mutable c_cstopb: int; (* Number of stop bits (1-2). *)
mutable c_cread: bool; (* Reception is enabled. *)
mutable c_parenb: bool; (* Enable parity generation and detection. *)
mutable c_parodd: bool; (* Specify odd parity instead of even. *)
mutable c_hupcl: bool; (* Hang up on last close. *)
mutable c_clocal: bool; (* Ignore modem status lines. *)
(* Local modes: *)
mutable c_isig: bool; (* Generate signal on INTR, QUIT, SUSP. *)
mutable c_icanon: bool; (* Enable canonical processing
(line buffering and editing) *)
mutable c_noflsh: bool; (* Disable flush after INTR, QUIT, SUSP. *)
mutable c_echo: bool; (* Echo input characters. *)
mutable c_echoe: bool; (* Echo ERASE (to erase previous character). *)
mutable c_echok: bool; (* Echo KILL (to erase the current line). *)
mutable c_echonl: bool; (* Echo NL even if c_echo is not set. *)
(* Control characters: *)
mutable c_vintr: char; (* Interrupt character (usually ctrl-C). *)
mutable c_vquit: char; (* Quit character (usually ctrl-\). *)
mutable c_verase: char; (* Erase character (usually DEL or ctrl-H). *)
mutable c_vkill: char; (* Kill line character (usually ctrl-U). *)
mutable c_veof: char; (* End-of-file character (usually ctrl-D). *)
mutable c_veol: char; (* Alternate end-of-line char. (usually none). *)
mutable c_vmin: int; (* Minimum number of characters to read
before the read request is satisfied. *)
mutable c_vtime: int; (* Maximum read wait (in 0.1s units). *)
mutable c_vstart: char; (* Start character (usually ctrl-Q). *)
mutable c_vstop: char (* Stop character (usually ctrl-S). *)
}
external tcgetattr: file_descr -> terminal_io = "unix_tcgetattr"
(* Return the status of the terminal referred to by the given
file descriptor. *)
type setattr_when = TCSANOW | TCSADRAIN | TCSAFLUSH
external tcsetattr: file_descr -> setattr_when -> terminal_io -> unit
= "unix_tcsetattr"
(* Set the status of the terminal referred to by the given
file descriptor. The second argument indicates when the
status change takes place: immediately ([TCSANOW]),
when all pending output has been transmitted ([TCSADRAIN]),
or after flushing all input that has been received but not
read ([TCSAFLUSH]). [TCSADRAIN] is recommended when changing
the output parameters; [TCSAFLUSH], when changing the input
parameters. *)
external tcsendbreak: file_descr -> int -> unit = "unix_tcsendbreak"
(* Send a break condition on the given file descriptor.
The second argument is the duration of the break, in 0.1s units;
0 means standard duration (0.25s). *)
external tcdrain: file_descr -> unit = "unix_tcdrain"
(* Waits until all output written on the given file descriptor
has been transmitted. *)
type flush_queue = TCIFLUSH | TCOFLUSH | TCIOFLUSH
external tcflush: file_descr -> flush_queue -> unit = "unix_tcflush"
(* Discard data written on the given file descriptor but not yet
transmitted, or data received but not yet read, depending on the
second argument: [TCIFLUSH] flushes data received but not read,
[TCOFLUSH] flushes data written but not transmitted, and
[TCIOFLUSH] flushes both. *)
type flow_action = TCOOFF | TCOON | TCIOFF | TCION
external tcflow: file_descr -> flow_action -> unit = "unix_tcflow"
(* Suspend or restart reception or transmission of data on
the given file descriptor, depending on the second argument:
[TCOOFF] suspends output, [TCOON] restarts output,
[TCIOFF] transmits a STOP character to suspend input,
and [TCION] transmits a START character to restart input. *)